Calculators Created by Payal Priya

Birsa Institute of Technology (BIT), Sindri
634
Formulas Created
1864
Formulas Verified
393
Across Categories

List of Calculators by Payal Priya

Following is a combined list of all the calculators that have been created and verified by Payal Priya. Payal Priya has created 634 and verified 1864 calculators across 393 different categories till date.
Verified Crippling Load for any type of End Condition
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Verified Crippling Load given Effective Length and Radius of Gyration
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2 More Crippling Load Calculators
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Verified Load Current using Line Losses(DC Two-Wire OS)
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Verified Resistance(2-Wire DC OS)
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3 More 2-Wire System Calculators
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Verified Effective Resistance in Coordinate Type Potentiometer
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Verified Resistance of Coil in Transfer Type Potentiometer
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Verified Voltage Magnitude of AC Potentiometer
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4 More AC Circuits Calculators
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Verified Acceleration of Follower after Time t for Cycloidal Motion
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Verified Acceleration of Follower for Circular Arc Cam if there's Contact on Circular Flank
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Verified Acceleration of Follower for Roller Follower Tangent Cam, there's Contact with Straight Flanks
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Verified Acceleration of Follower of Roller Follower Tangent Cam, there's Contact with Nose
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Verified Centripetal Acceleration of Point P on Circumference
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Verified Centripetal Acceleration of Point P on Circumference when Follower Moves with SHM
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Verified Minimum Acceleration of Follower for Circular Arc Cam Contacting with Circular Flank
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Verified Minimum Acceleration of Follower for Tangent Cam with Roller Follower
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Created Acute Angle between Diagonals of Rectangle
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13 More Acute Angle between Diagonals of Rectangle Calculators
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Verified Luminous Intensity
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Verified Specific Consumption
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Verified Utilization Factor of Electrical Energy
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13 More Advanced Illumination Calculators
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Verified Allowable crushing stress of rivet material given crushing strength for double rivet
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Verified Allowable crushing stress of rivet material given crushing strength for 'n' number of rivets
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Verified Allowable crushing stress of rivet material given crushing strength for single rivet
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Verified Allowable crushing stress of rivet material given crushing strength for triple rivet
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Verified Allowable shear stress of rivet material given shearing strength if rivet is in double shear
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Verified Allowable shear stress of rivet material given shearing strength if rivet is in single shear
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Verified Allowable tensile stress in plate given strength of solid plate per pitch length
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Verified Allowable tensile stress in plate given tearing strength of rivet
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Verified Allowable tensile stress in plates given efficiency of riveted joint
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Verified m of Moving Iron Ammeter
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Verified m of PMMC based Ammeter
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Verified Nth resistance in multi-range Ammeter
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Verified Resistance at switch position 'n' for multi range Ammeter
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Verified Rsh of PMMC based Ammeter
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Verified Time Constant of Moving Iron Ammeter
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4 More Ammeter Calculators
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Created Amplification Factor of BJT
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Created Common Mode Gain of BJT
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Created Common-Base Current Gain
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Created Common-Emitter Current Gain using Common-Base Current Gain
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Created Forced Common-Emitter Current Gain
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Created Intrinsic Gain of BJT
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Verified Open Circuit Voltage Gain given Open Circuit Transresistance
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Created Overall Voltage Gain given Load Resistance of BJT
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Created Overall Voltage Gain of Amplifier when Load Resistance is Connected to Output
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Created Overall Voltage Gain of Buffer Amplifier given Load Resistance
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Verified Short-Circuit Current Gain
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Created Total Power Dissipated in BJT
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Created Total Power Supplied in BJT
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Created Voltage Gain given all Voltages
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Created Voltage Gain given Collector Current
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Created Voltage Gain given Transconductance and Collector Resistance
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Created Maximum Voltage Gain at Bias Point
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Created Maximum Voltage Gain given all Voltages
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Created Phase Shifted Voltage Gain using Transconductance
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Created Voltage Gain given Drain Voltage
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Created Voltage Gain given Load Resistance of MOSFET
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Created Voltage Gain using Single Component of Drain Voltage
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Verified Amplifier Power Efficiency
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Verified Base Junction Width of Amplifier
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Verified Current Gain of Amplifier
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Verified Differential Gain of Instrumentation Amplifier
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Verified Differential Voltage in Amplifier
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Verified Input Voltage at Maximum Power Dissipation
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Created Input Voltage of Amplifier
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Created Load Resistance with respect to Transconductance
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Verified Open Circuit Time Constant of Amplifier
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Verified Open-Circuit Transresistance
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Verified Output Voltage for Instrumentation Amplifier
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Created Output Voltage Gain given Transconductance
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Created Output Voltage of Amplifier
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Created Peak Voltage at Maximum Power Dissipation
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Verified Power Gain of Amplifier
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Created Saturation Current
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Verified Signal Voltage of Amplifier
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Created Voltage Gain given Load Resistance
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Verified Voltage Gain of Amplifier
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2 More Amplifier Characteristics Calculators
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Verified Conversion Time for Dual Slope Converter
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Verified Conversion Time Taken for First Cycle in Converter
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Verified Conversion Time Taken for Second Cycle in Converter
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Verified Maximum Number of Clock Pulses for Linear Ramp Converter
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Verified Number of Pulses for Dual Slope Converter
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Verified Total Conversion Time for Linear Ramp Converter
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Verified Value of Analog Voltage for Dual Slope Converter
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Verified Allowable Tensile Stress given Load Carried by Single Fillet Lap Weld
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Verified Allowable Tensile Stress given Total Load Carried by Plates in Compound Weld
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Verified Length of Parallel Fillet Weld given Load Carried by Parallel Fillet Weld
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Verified Length of Parallel Fillet Weld given Total Load Carried by Plates in Compound Weld
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Verified Length of Single Fillet Lap Weld given Load Carried by Single Fillet Lap Weld
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Verified Length of Single Fillet Lap Weld given Total Load Carried by Plates in Compound Weld
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Verified Load Carried by Parallel Fillet Weld
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Verified Load Carried by Single Fillet Lap Weld
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Verified Maximum Shear Stress given Load Carried by Parallel Fillet Weld
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Verified Maximum Shear Stress given Total Load Carried by Plates in Compound Weld
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Verified Thickness of Plates given Load Carried by Parallel Fillet Weld
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Verified Thickness of Plates given Load Carried by Single Fillet Lap Weld
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Verified Thickness of Plates given Total Load Carried by Plates in Compound Weld
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Verified Total Load Carried by Plates in Compound Weld
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Verified Area of Unsymmetrical Weld
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Verified Area of Unsymmetrical Weld given Throat Thickness
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Verified Area of Weld given Axial Load on Weld
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Verified Axial Load on Angle
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Verified Axial Load on Angle given Resistance of Bottom and Top Weld
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Verified Axial Load on Weld
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Verified Axial Load on Weld given Shear Stress
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Verified Shear Stress given Axial Load on Weld
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Verified Shear Stress given Axial Load on Welded Connection
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Verified Thickness of Plate given Area of Unsymmetrical Weld
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Verified Thickness of Plate given Axial Load on Weld
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Verified Throat Thickness given Area of Unsymmetrical Weld
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Verified Total Length of Weld given Area of Unsymmetrical Weld
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Verified Total Length of Weld given Length of Bottom Weld
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Verified Total Length of Weld given Length of Top and Bottom Weld
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Verified Total Length of Weld given Length of Top Weld
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Verified Total Length of Weld given Resistance of Bottom Weld
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Verified Total Length of Weld given Resistance of Top Weld
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Verified Total Resistance given Resistance of Bottom Weld
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Verified Total Resistance given Resistance of Top Weld
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Verified Capacitor Current in Anderson Bridge
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Verified Unknown Inductance in Anderson Bridge
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Verified Unknown Resistance in Anderson Bridge
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Created Angle between Diagonal and Length of Rectangle
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13 More Angle between Diagonal and Length of Rectangle Calculators
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Created Angles of Bisector of Isosceles Triangle at Vertex
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3 More Angle of Isosceles Triangle Calculators
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Created Angle D of Quadrilateral given other Three Angles
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3 More Angles of Quadrilateral Calculators
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Verified Angular Velocity of disc given Circumferential stress at center of solid disc
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Verified Angular velocity of disc given Circumferential stress in solid disc
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Verified Angular velocity of disc given Constant at boundary condition for circular disc
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Verified Angular velocity of disc given maximum radial stress
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Verified Angular velocity of disc given Radial stress at center of solid disc
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Verified Angular Velocity of disc given Radial stress in solid disc
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Verified Angular velocity of disc given Radial stress in solid disc and Outer radius
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Verified Disc's angular velocity given maximum circumferential stress in solid disc
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1 More Angular Velocity of Disc Calculators
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Verified Antenna Current
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Verified Antenna Efficiency
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Verified Distance between Transmitting and Receiving Point
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Verified Duct Height
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Verified Effective Area of Antenna
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Verified Height of Receiving Antenna
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Verified Height of Transmitting Antenna
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Verified Isotropic Radiation Intensity
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Verified Length of Binomial Array
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Verified Maximum Duct Wavelength
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Verified Noise Temperature of Antenna
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Verified Ohmic Resistance
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Verified Power Density of Antenna
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Verified Power Per Unit Bandwidth
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Verified Radiation Resistance
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Verified Strength of Ground Wave
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Verified Total Antenna Resistance
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Verified Total Input Power
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Verified Total Power of Antenna
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5 More Antenna Theory Parameters Calculators
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Created Area of Circular Ring
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6 More Area of Circular Ring Calculators
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Created Area of Circular Sector given Arc Length
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2 More Area of Circular Sector Calculators
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Created Area of Circular Segment
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1 More Area of Circular Segment Calculators
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Verified Area of Double Fillet Weld given Tensile Force
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Verified Area of Fillet Weld given Thickness of Plate for Single Fillet Lap Joint
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Verified Area of Fillet Weld given Throat Thickness for Double Fillet Lap Joint
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Verified Area of Fillet Weld given Throat Thickness for Single Fillet Lap Joint
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Verified Area of Fillet Weld in given Thickness of Plate for Double Fillet Lap Joint
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Verified Area of Parallel Fillet Weld given Thickness of Plate
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Verified Area of Parallel Fillet Weld given Throat Thickness
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Verified Area of Single Fillet Weld given Tensile Force
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Created Area of Rectangle given Breadth and Circumradius
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Created Area of Rectangle given Breadth and Diameter of Circumcircle
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Created Area of Rectangle given Diagonal and Acute Angle between Diagonals
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Created Area of Rectangle given Diagonal and Obtuse Angle between Diagonals
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Created Area of Rectangle given Length and Circumradius
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Created Area of Rectangle given Length and Diameter of Circumcircle
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Created Area of Rectangle given Perimeter and Breadth
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27 More Area of Rectangle Calculators
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Created Area of Square given Circumradius
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Created Area of Square given Diameter of Circumcircle
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Created Area of Square given Diameter of Incircle
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Created Area of Square given Inradius
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3 More Area of Square Calculators
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Created Length of Astronomical Telescope
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Created Magnifying Power of Astronomical Telescope when Image Forms at Infinity
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Created Magnifying Power of Galilean Telescope when Image Forms at Infinity
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1 More Astronomical Telescope Calculators
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Verified Frequency of Oscillation in Wien Bridge Oscillator
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Verified Voltage Gain of Wien Bridge Oscillator
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Verified Axial Load of Spring for given Deflection and Stiffness of Spring
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Verified Axial Load on Spring given Deflection of Spring
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Verified Axial Load on Spring given Strain Energy Stored by Spring
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Verified Axial Load on Spring given Work Done on Spring
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Verified Axial Loading on Spring
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Verified Axial Loading on Spring given Maximum Shear Stress induced in Wire
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Verified Angle Made by Resultant Force with Horizontal
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Verified Resultant Centrifugal Force
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Created Base Current 1 of BJT
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Created Base Current 2 of BJT
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Created Base Current of PNP Transistor given Emitter Current
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Created Base Current of PNP Transistor using Collector Current
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Created Base Current of PNP Transistor using Common-Base Current Gain
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Created Base Current of PNP Transistor using Saturation Current
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Created Base Current using Saturation Current in DC
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Created Drain Current given Device Parameter
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Created Reference Current of BJT Current Mirror
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Created Reference Current of BJT Mirror
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Created Reference Current of BJT Mirror given Collector Current
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Created Saturation Current using Doping Concentration
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Created Short Circuit Current Gain of BJT
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Created Total Base Current
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Created Amount of Feedback Given Loop Gain
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Created Closed-Loop Gain as Function of Ideal Value
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Created Gain with Feedback of Feedback Amplifier
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1 More Basic Characteristics Calculators
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Basics (7)
Created Angular Width of Central Maxima
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Created Malus Law
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Created Optical Activity
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Created Path Difference of Two Progressive Wave
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Created Phase Difference
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Created Phase Difference of Constructive Interference
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Created Phase Difference of Destructive Interference
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Created Current Density given Electric Current and Area
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Created Current Density given Resistivity
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Created Drift Speed
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Created Drift Speed given Cross-Sectional Area
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Created Electric Current given Charge and Time
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Created Electromotive Force when Battery is Charging
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Created Electromotive Force when Battery is Discharging
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2 More Basics of Current Electricity Calculators
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Verified Capacitive Reactance
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Created Current Value for Alternating Current
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13 More Basics of Electromagentic Induction Calculators
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Verified Angle between Axis of Radius of Rotation and Line Joining Point on Curve to Origin
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Verified Angle between Axis of Radius of Rotation and Line Joining Point on Curve to Origin O
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Verified Corresponding Radial Force Required at Each Ball for Spring Loaded Governors
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Verified Governor Power
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Verified Increased Speed
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Verified Mean Equilibrium Angular Speed
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Verified Mean Equilibrium Speed in RPM
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Verified Sleeve Load for Decrease in Speed Value when Taking Friction into Account
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Verified Sleeve Load for Increase in Speed Value when Taking Friction into Account
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Verified Speed of Rotation in RPM
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Verified Total Downward Force on Sleeve in Wilson-Hartnell Governor
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2 More Basics of Governor Calculators
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Verified Bending Moment at Center given Point Load Acting at Center of Spring Load
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Verified Bending Moment at Center of Leaf Spring
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Verified Bending Moment on each Plate given Total Resisting Moment by n Plates
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Verified Bending Moment on Single Plate
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Verified Maximum Bending Moment Developed in Plate given Bending Moment on Single Plate
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Verified Maximum Bending Moment Developed in Plate given Total Resisting Moment by n Plates
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Created Bias Current in Differential Pair
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Created Bias Voltage of MOSFET
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Created DC Bias Current of MOSFET
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Created DC Bias Current of MOSFET using Overdrive Voltage
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Created DC Bias Output Voltage at Drain
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Verified Input Bias Current
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12 More Biasing Calculators
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Verified Crippling Load given Moment of Section if Both Ends of Column are Fixed
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Verified Crippling Load if Both Ends of Column are Fixed
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Verified Deflection at Section given Moment of Section if Both Ends of Column are Fixed
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Verified Length of Column given Crippling Load if Both Ends of Column are Fixed
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Verified Modulus of Elasticity given Crippling Load if Both Ends of Column are Fixed
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Verified Moment of Fixed Ends given Moment of Section if Both Ends of Column are Fixed
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Verified Moment of Inertia given Crippling Load if Both Ends of Column are Fixed
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Verified Moment of Section if Both Ends of Column are Fixed
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Verified Crippling Load given Moment at Section if Both Ends of Column are Hinged
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Verified Crippling Load when Both Ends of Column are Hinged
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Verified Deflection at Section given Moment at Section if Both Ends of Column are Hinged
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Verified Length of Column given Crippling Load with Both Ends of Column Hinged
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Verified Modulus of Elasticity given Crippling Load with Both Ends of Column Hinged
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Verified Moment due to Crippling Load at Section if Both Ends of Column are Hinged
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Verified Moment of Inertia given Crippling Load with Both Ends of Column Hinged
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Verified Distance of Bottom Weld from Gravity Axis given Length of Bottom Weld and Total Length of Weld
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Verified Distance of Bottom Weld from Gravity Axis given Length of Top Weld
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Verified Distance of Bottom Weld from Gravity Axis given Length of Top Weld and Total Length of Weld
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Verified Distance of Bottom Weld from Gravity Axis given Moment and Length of Bottom Weld
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Verified Distance of Bottom Weld from Gravity Axis given Moment of Bottom Weld about Gravity Axis
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Verified Distance of Bottom Weld from Gravity Axis given Resistance of Bottom Weld
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Verified Distance of Bottom Weld from Gravity Axis given Resistance of Bottom Weld and Total Weld Length
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Verified Distance of Bottom Weld from Gravity Axis given Resistance of Top Weld
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Verified Distance of Bottom Weld from Gravity Axis given Resistance of Top Weld and Total Weld Length
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Verified Length of Bottom Weld
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Verified Length of Bottom Weld given Area of Unsymmetrical Weld
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Verified Length of Bottom Weld given Axial Load on Angle
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Verified Length of Bottom Weld given Axial Load on Weld
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Verified Length of Bottom Weld given Length of Top Weld
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Verified Length of Bottom Weld given Moment of Bottom Weld about Gravity Axis
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Verified Length of Bottom Weld given Resistance of Bottom Weld
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Verified Length of Bottom Weld given Total Length of Weld
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Verified Moment of Bottom Weld about Gravity Axis
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Verified Moment of Bottom Weld about Gravity Axis given Resistance of Bottom Weld
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Verified Resistance of Bottom Weld
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Verified Resistance of Bottom Weld given Axial Load on Angle
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Verified Resistance of Bottom Weld given Moment of Bottom Weld about Gravity Axis
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Verified Resistance of Bottom Weld given Total Resistance
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Verified Resistance of Bottom Weld given Total Weld Length
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Brake (2)
Verified Effective Radius of Drum for Simple Band Brake
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Verified Tension in Tight Side of Band for Simple Band Brake
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3 More Brake Calculators
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Verified Brake Power of Engine for Belt Transmission Dynamometer
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Verified Brake Power of Engine for Prony Brake Dynamometer
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Verified Brake Power of Engine for Prony Brake Dynamometer given Speed of Shaft
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Verified Brake Power of Engine for Prony Brake Dynamometer given Work Done per Minute
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Verified Brake Power of Engine for Rope Brake Dynamometer
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Verified Brake Power of Engine for Rope Brake Dynamometer if Diameter of Rope is Neglected
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Verified Braking Torque for Double Block or Shoe Brake
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Verified Braking Torque for Pivoted Block or Shoe Brake
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Verified Braking Torque for Shoe Brake
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Verified Braking Torque for Shoe Brake given Force Applied at End of Lever
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Verified Braking Torque for Shoe Brake if Line of Action of Tangential Force Passes above Fulcrum Anti Clock
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Verified Braking Torque of Shoe Brake if Line of Action of Tangential Force Passes above Fulcrum Clockwise
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Verified Braking Torque of Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum Anti Clock
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Verified Braking Torque of Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum Clockwise
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4 More Braking Torque Calculators
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Created Breadth of Rectangle given Area
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Created Breadth of Rectangle given Diagonal
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Created Breadth of Rectangle given Diagonal and Acute Angle between Diagonals
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Created Breadth of Rectangle given Diagonal and Obtuse Angle between Diagonals
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Created Breadth of Rectangle given Perimeter
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28 More Breadth of Rectangle Calculators
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Created Gain at Mid and High Frequencies
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Created Gain with Feedback at Mid and High Frequency
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Created Lower 3-DB Frequency in Bandwidth Extension
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Created Signal-to-Interference Ratio at Output
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Created Upper 3-DB Frequency of Feedback Amplifier
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Verified Condition for Maximum Acceleration of Follower Exhibiting Cycloidal Motion
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Verified Condition for Maximum Velocity of Follower Exhibiting Cycloidal Motion
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Verified Displacement of Follower after Time t for Cycloidal Motion
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Verified Displacement of Follower for Circular Arc Cam, there's Contact on Circular Flank
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Verified Mean Velocity of Follower during Outstroke at Uniform Acceleration
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Verified Mean Velocity of Follower during Return Stroke at Uniform Acceleration
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Verified Peripheral Speed of Projection of Point P' (Projection of Point P on Dia) for SHM of Follower
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Verified Peripheral Speed of Projection of Point P on Diameter for SHM of Follower
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Verified Time Required by Follower for Return Stroke at Uniform Acceleration
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Verified Time Required for Follower during Outstroke for Uniform Acceleration
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Verified Time Required for Out Stroke of Follower when Follower Moves with SHM
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Verified Velocity of Follower after Time t for Cycloidal Motion
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Verified Velocity of Follower for Circular Arc Cam if Contact is on Circular Flank
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Created Capacitance for Parallel Plate Capacitors with Dielectric between them
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Created Capacitor with Dielectric
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4 More Capacitance Calculators
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Created Drain Resistance of Cascode Amplifier
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Created Equivalent Resistance of Cascode Amplifier
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Created Negative Voltage Gain of Cascode Amplifier
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Created Open Circuit Bipolar Cascode Voltage Gain
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Created Output voltage gain of MOS Cascode Amplifier
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Created Downwards Resistance of Cascode Differential Half Circuit
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Created Upwards Resistance of Cascode Differential Half-Circuit
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Created Voltage Gain of Cascode Differential Amplifier given Transconductance
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Verified Centrifugal Force at Intermediate Position for Hartnell Governor for Maximum Force
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Verified Centrifugal Force at Intermediate Position for Hartnell Governor for Minimum Force
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Verified Centrifugal Force at Maximum Equilibrium Speed on Each Ball for Wilson-Hartnell Governor
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Verified Centrifugal Force at Maximum Radius of Rotation
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Verified Centrifugal Force at Minimum Equilibrium Speed on Each Ball for Wilson-Hartnell Governor
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Verified Centrifugal Force at Minimum Radius of Rotation
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Verified Centrifugal Force for Hartung Governor
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Verified Centrifugal Force for Pickering Governor
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Verified Centrifugal Force on Each Ball for Wilson-Hartnell Governor
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Verified Change in diameter of thin spherical shell
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Verified Diameter of spherical shell given change in diameter of thin spherical shells
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Verified Diameter of thin spherical shell given strain in any one direction
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Verified Hoop stress in thin spherical shell given strain in any one direction and Poisson's ratio
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Verified Hoop stress induced in thin spherical shell given strain in any one direction
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Verified Internal fluid pressure given change in diameter of thin spherical shells
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Verified Internal fluid pressure in thin spherical shell given strain in any one direction
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Verified Modulus of elasticity for thin spherical shell given strain and internal fluid pressure
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Verified Modulus of elasticity given change in diameter of thin spherical shells
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Verified Modulus of elasticity of thin spherical shell given strain in any one direction
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Verified Poisson's ratio for thin spherical shell given strain and internal fluid pressure
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Verified Poisson's ratio for thin spherical shell given strain in any one direction
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Verified Poisson's ratio given change in diameter of thin spherical shells
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Verified Strain in any one direction of thin spherical shell
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Verified Strain in thin spherical shell given internal fluid pressure
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Verified Thickness of spherical shell given change in diameter of thin spherical shells
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Verified Thickness of thin spherical shell given strain in any one direction
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Verified Change in circumference of vessel due to pressure given circumferential strain
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Verified Change in diameter in thin cylindrical strain given volumetric strain
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Verified Change in diameter of cylindrical shell given change in volume of cylindrical shell
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Verified Change in diameter of thin cylindrical vessel (Circumferential strain)
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Verified Change in diameter of vessel given internal fluid pressure
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Verified Change in length in thin cylindrical strain given volumetric strain
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Verified Change in length of cylindrical shell given change in volume of cylindrical shell
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Verified Change in length of thin cylindrical shell given internal fluid pressure
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Verified Change in length of thin cylindrical vessel given longitudinal strain
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Verified Change in volume given circumferential strain and longitudinal strain
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Verified Change in volume of cylindrical shell given volumetric strain
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Verified Change in volume of thin cylindrical shell
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Created Convection Current Density
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Created Electrostatic Deflection Sensitivity of CRT
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Created Force on Current Element in Magnetic Field
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Created Holes Diffusion Constant
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Created Thermal Voltage using Einstein's Equation
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11 More Charge Carrier Characteristics Calculators
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Verified Excess Work Due to Thyristor 1 in Chopper Circuit
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12 More Chopper Core Factors Calculators
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Created Area of Circular Quadrant
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Created Perimeter of Circular Quadrant
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2 More Circular Quadrant Calculators
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Created Circumference of Circle given Area
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4 More Circumference of Circle Calculators
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Verified Circumferential strain for rotating thin disc
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Verified Circumferential strain for rotating thin disc given radius of disc
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Verified Circumferential strain on disc given stresses
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Verified Circumferential stress given circumferential strain on disc
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Verified Circumferential stress given initial radial width of disc
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Verified Circumferential stress given radial strain on disc
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Verified Circumferential stress given radius of disc
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Created Circumradius of Rectangle
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Created Circumradius of Rectangle given Diagonal
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Created Circumradius of Rectangle given Diameter of Circumcircle
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Created Circumradius of Rectangle given Length and Acute Angle between Diagonals
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Created Circumradius of Rectangle given Length and Obtuse Angle between Diagonals
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Created Circumradius of Rectangle given Perimeter and Breadth
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Created Circumradius of Rectangle given Perimeter and Length
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17 More Circumradius of Rectangle Calculators
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Created Circumradius of Square
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Created Circumradius of Square given Area
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Created Circumradius of Square given Diagonal
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Created Circumradius of Square given Diameter of Circumcircle
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Created Circumradius of Square given Diameter of Incircle
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Created Circumradius of Square given Inradius
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1 More Circumradius of Square Calculators
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Created Bias Current of Emitter Follower
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Created Drain Current of Class B Amplifier
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Created Instantaneous Power Dissipation of Emitter-Follower
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Created Load Power of Output Stage
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Created Load Voltage
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Created Peak Output Voltage Value at Average Load Power
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Created Power Conversion Efficiency of Class A Output Stage
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Created Power Output Capability Factor
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Created Saturation Voltage between Collector-Emitter at Transistor 1
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Created Saturation Voltage between Collector-Emitter at Transistor 2
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Created Supply Power of Output Stage
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Created Efficiency of Class A
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Created Efficiency of Class B Output Stage
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Created Load Resistance of Class B Stage
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Created Maximum Average Power from Class B Output Stage
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Created Maximum Power Dissipation in Class B Stage
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Created Negative Half of Maximum Power Dissipation in Class B Stage
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Created Collector Current given Early Voltage for PNP Transistor
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Created Collector Current of BJT
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Created Collector Current of PNP Transistor
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Created Collector Current of PNP Transistor when Common-Emitter Current Gain
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Created Collector Current using Early Voltage for NPN Transistor
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Created Collector Current using Emitter Current
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Created Collector Current using Leakage Current
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Created Collector Current using Saturation Current
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Created Collector Current when Saturation Current due to DC Voltage
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1 More Collector Current Calculators
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Verified Cross Sectional Area of Column given Maximum Stress for Column with Eccentric Load
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Verified Eccentric Load given Deflection at Section of Column with Eccentric Load
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Verified Eccentricity given Deflection at Free End of Column with Eccentric load
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Verified Eccentricity given Deflection at Section of Column with Eccentric load
Go
Verified Eccentricity given Maximum Stress for Column with Eccentric Load
Go
Verified Eccentricity given Moment at Section of Column with Eccentric Load
Go
Verified Effective Length of Column given Maximum Stress for Column with Eccentric Load
Go
Verified Maximum Stress for Column with Eccentric Load
Go
Verified Modulus of Elasticity given Deflection at Section of Column with Eccentric Load
Go
Verified Modulus of Elasticity given Maximum Stress for Column with Eccentric Load
Go
Verified Moment at Section of Column with Eccentric Load
Go
Verified Moment of Inertia given Deflection at Section of Column with Eccentric Load
Go
Verified Moment of Inertia given Maximum Stress for Column with Eccentric Load
Go
Verified Section Modulus given Maximum Stress for Column with Eccentric Load
Go
2 More Columns With Eccentric Load Calculators
Go
Verified Crippling Load given Factor of Safety
Go
Verified Crippling Load given Final Deflection at Distance X from end A of Column
Go
Verified Crippling Load given Maximum Deflection for Columns with Initial Curvature
Go
Verified Distance from Neutral Axis of Extreme Layer given Maximum Stress for Columns
Go
Verified Euler Load
Go
Verified Euler Load given Factor of Safety
Go
Verified Euler Load given Final Deflection at Distance X from end A of Column
Go
Verified Euler Load given Maximum Deflection for Columns with Initial Curvature
Go
Verified Euler Stress given Maximum Stress for Columns with Initial Curvature
Go
Verified Factor of Safety given Euler Load
Go
Verified Length of Column given Euler Load
Go
Verified Length of Column given Final Deflection at Distance X from End A of Column
Go
Verified Length of Column given Initial Deflection at Distance X from end A
Go
Verified Maximum Stress for Columns with Initial Curvature
Go
Verified Modulus of Elasticity given Euler Load
Go
Verified Moment of Inertia given Euler Load
Go
Verified Radius of Gyration given Maximum Stress for Columns with Initial Curvature
Go
Verified Value of Distance 'X' given Final Deflection at Distance X from end A of Column
Go
Verified Value of Distance 'X' given Initial Deflection at Distance X from end A
Go
Created Common Mode Input Resistance of BJT Half-Circuit
Go
Verified Common Mode Rejection Ratio
Go
Created Common Mode Rejection Ratio of BJT
Go
Created Common-Mode Input Signal of MOSFET
Go
Created Common-Mode Rejection Ratio of MOS Controlled Source Transistor
Go
Created Common-Mode Rejection Ratio of MOS with Current-Mirror Load
Go
Created Common-Mode Rejection Ratio of MOS with Current-Mirror Load when Resistance at Drains are Equal
Go
Created Common-Mode Rejection Ratio of MOSFET
Go
Created Common-Mode Rejection Ratio of MOSFET given Resistance
Go
Created Common-Mode Rejection Ratio of MOSFET in Decibels
Go
Created Common-Mode Rejection Ratio of MOSFET when Transconductance Mismatches
Go
Created Common-Mode Signal of MOSFET given Output Voltage at Drain Q2
Go
Created Common-Mode Signal of MOSFET given Resistance
Go
Created Common Base Current Gain
Go
Created Emitter Current of Common-Base Amplifier
Go
Created Input Impedance of Common-Base Amplifier
Go
Created Input Resistance of Common-Base Circuit
Go
Created Negative Voltage Gain from Base to Collector
Go
Created Resistance of Emitter in Common-Base Amplifier
Go
Created Total Current Gain with respect to Voltage Gain
Go
Created Voltage Gain of Common-Base Amplifier
Go
Created Fundamental Voltage in Common-Emitter Amplifier
Go
Created Input Resistance of Common Emitter Amplifier
Go
Created Input Resistance of Common Emitter Amplifier given Small-Signal Input Resistance
Go
Created Input Resistance of Common-Emitter Amplifier given Emitter Resistance
Go
Created Output Resistance of Emitter-Degenerated CE Amplifier
Go
Created Overall Feedback Voltage Gain of Common-Collector Amplifier
Go
Created Overall Feedback Voltage Gain of Common-Emitter Amplifier
Go
Created Overall Voltage Gain of Common-Emitter Amplifier
Go
Created Current Gain of Controlled Source Transistor
Go
Created Emitter Voltage with respect to Voltage Gain
Go
Created Load Voltage of CS Amplifier
Go
Created Open-Circuit Voltage Gain of CS Amplifier
Go
Created Output Resistance at Another Drain of Controlled Source Transistor
Go
Created Output Resistance of CS Amplifier with Source Resistance
Go
Created Output Voltage of Controlled Source Transistor
Go
Created Overall Feedback Voltage Gain of Common-Source Amplifier
Go
Created Overall Voltage Gain of Source Follower
Go
Created Total Voltage Gain of CS Amplifier
Go
Created Transconductance in Common Source Amplifier
Go
Verified Constant 'a' for inner cylinder given original difference of radii at junction
Go
Verified Constant for outer cylinder given original difference of radii at junction
Go
Verified Decrease in outer radius of inner cylinder at junction given constants of lame equation
Go
Verified Decrease in outer radius of inner cylinder at junction of compound cylinder
Go
Verified Hoop stress given decrease in outer radius of inner cylinder
Go
Verified Hoop stress given increase in inner radius of outer cylinder
Go
Verified Increase in inner radius of outer cylinder at junction given constants of lame equation
Go
Verified Increase in inner radius of outer cylinder at junction of compound cylinder
Go
Verified Mass of compound cylinder given decrease in outer radius of inner cylinder
Go
Verified Mass of compound cylinder given increase in inner radius of outer cylinder
Go
Verified Modulus of elasticity decrease in outer radius of inner cylinder
Go
Verified Modulus of elasticity given decrease in outer radius of inner cylinder and constants
Go
Verified Modulus of elasticity given increase in inner radius of outer cylinder
Go
Verified Modulus of elasticity given increase in inner radius of outer cylinder and constants
Go
Verified Modulus of elasticity given original difference of radii at junction
Go
Verified Original difference of radii at junction
Go
Verified Radial pressure given decrease in outer radius of inner cylinder
Go
Verified Radial pressure given increase in inner radius of outer cylinder
Go
Verified Radius at junction of compound cylinder given decrease in outer radius of inner cylinder
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Verified Radius at junction of compound cylinder given increase in inner radius of outer cylinder
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Verified Radius at junction of compound cylinder given original difference of radii at junction
Go
Created Length of Compound Microscope
Go
Created Magnifying Power of Compound Microscope
Go
Created Magnifying Power of Compound Microscope at Infinity
Go
3 More Compound Microscope Calculators
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Created Conjugate Axis of Hyperbola
Go
11 More Conjugate Axis of Hyperbola Calculators
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Verified Constant 'a' for inner cylinder given hoop stress at radius x
Go
Verified Constant 'a' for inner cylinder given radial pressure at radius x
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Verified Constant 'a' for outer cylinder given hoop stress at radius x
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Verified Constant 'a' for outer cylinder given hoop stress at radius x and constant b
Go
Verified Constant 'a' for outer cylinder given outer radius of cylinder
Go
Verified Constant 'a' for outer cylinder given radial pressure at junction of two cylinders
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Verified Constant 'a' for outer cylinder given radial pressure at radius x
Go
Verified Constant A for single thick shell given hoop stress due to internal fluid pressure alone
Go
Verified Constant A for single thick shell given Radial pressure due to internal fluid pressure alone
Go
Verified Constant 'b' for inner cylinder given hoop stress at radius x
Go
Verified Constant 'b' for inner cylinder given radial pressure at radius x
Go
Verified Constant 'b' for outer cylinder given hoop stress at radius x
Go
Verified Constant 'b' for outer cylinder given outer radius of cylinder
Go
Verified Constant 'b' for outer cylinder given radial pressure at junction of two cylinders
Go
Verified Constant 'b' for outer cylinder given radial pressure at radius x
Go
Verified Constant B for single thick shell given hoop stress due to internal fluid pressure alone
Go
Verified Constant B for single thick shell given Radial pressure due to internal fluid pressure alone
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8 More Constants Calculators
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Verified Relation between Controlling Force and Radius of Rotation for Isochronous Governor
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Verified Relation between Controlling Force and Radius of Rotation for Stable Governor
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Verified Relation between Controlling Force and Radius of Rotation for Unstable Governor
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Verified Value of Controlling Force for Decrease in Speed
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Verified Value of Controlling Force for Increase in Speed
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Verified Centrifugal Force Causing Shaft Deflection
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11 More Critical or Whirling Speed of Shaft Calculators
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Verified Armature Current of Series DC Generator given Output Power
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Verified Load Current of Series DC Generator given Output Power
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3 More Current Calculators
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Current (10)
Created Current in Common-Mode Rejection of MOSFET
Go
Created Drain Current in Load Line
Go
Created Drain Current of MOSFET on Large-Signal Operation given Overdrive Voltage
Go
Created Drain Current without Channel-Length Modulation of MOSFET
Go
Created Drain Saturation Current of MOSFET
Go
Created First Drain Current of MOSFET on Large-Signal Operation
Go
Created First Drain Current of MOSFET on Large-Signal Operation given Overdrive Voltage
Go
Created Second Drain Current of MOSFET on Large-Signal Operation
Go
Created Second Drain Current of MOSFET on Large-Signal Operation given Overdrive Voltage
Go
Created Short Circuit Current of MOSFET
Go
2 More Current Calculators
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Current (14)
Verified A-Phase Current using A-Phase Voltage(LGF)
Go
Verified A-Phase Current using Negative Sequence Current (LGF)
Go
Verified A-Phase Current using Positive Sequence Current (LGF)
Go
Verified A-Phase Current using Zero Sequence Current (LGF)
Go
Verified Negative Sequence Current for L-G-F
Go
Verified Negative Sequence Current using A-Phase Current (LGF)
Go
Verified Negative Sequence Current using A-Phase EMF (LGF)
Go
Verified Positive Sequence Current for L-G-F
Go
Verified Positive Sequence Current using A-Phase Current (LGF)
Go
Verified Positive Sequence Current using A-Phase EMF (LGF)
Go
Verified Positive Sequence Current using Fault Impedance(LGF)
Go
Verified Zero Sequence Current for L-G-F
Go
Verified Zero Sequence Current using A-Phase Current (LGF)
Go
Verified Zero Sequence Current using A-Phase EMF (LGF)
Go
5 More Current Calculators
Go
Verified B-Phase Current (LLF)
Go
Verified B-Phase Current using Fault Impedance (LLF)
Go
Verified C-Phase Current(LLF)
Go
Verified Positive Sequence Current (LLF)
Go
6 More Current Calculators
Go
Verified B-Phase Current (LLGF)
Go
Verified C-Phase Current (LLGF)
Go
Verified Fault Current (LLGF)
Go
Verified Fault Current using B-Phase Voltage (LLGF)
Go
Verified Fault Current using C-Phase Voltage (LLGF)
Go
Verified Positive Sequence Current using Positive Sequence Voltage (LLGF)
Go
Verified Zero Sequence Current using B-Phase Voltage (LLGF)
Go
Verified Zero Sequence Current using C-Phase Voltage (LLGF)
Go
Verified Zero Sequence Current using Zero Sequence Voltage (LLGF)
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7 More Current Calculators
Go
Verified Receiving End Current using Impedance (STL)
Go
Verified Receiving End Current using Losses (STL)
Go
Verified Receiving End Current using Receiving End Power (STL)
Go
Verified Transmitted Current (SC Line)
Go
5 More Current Calculators
Go
Verified Load Current(Two-Wire One Conductor Earthed)
Go
Verified Maximum Voltage using Load Current(Two-Wire One Conductor Earthed)
Go
3 More Current & Voltage Calculators
Go
Verified Maximum Voltage using Load Current(Two-Wire Mid-Point Earthed)
Go
5 More Current & Voltage Calculators
Go
Verified Load Current using Area of X-Section(DC 3-Wire)
Go
Verified Load Current using Line Losses(DC 3-Wire)
Go
Verified Load Current(DC 3-Wire)
Go
5 More Current & Voltage Calculators
Go
Verified Load Current(Single-Phase Two-Wire Mid-Point Earthed)
Go
7 More Current & Voltage Calculators
Go
Verified Maximum Voltage using Area of X-Section(2-Phase 4-Wire OS)
Go
Verified Maximum Voltage(2-Phase 4-Wire OS)
Go
8 More Current & Voltage Calculators
Go
Verified Load Current(3-Phase 4-Wire OS)
Go
6 More Current & Voltage Calculators
Go
Verified Load Current(Two-Phase Three-Wire OS)
Go
Verified Maximum Voltage using Area of X-Section(Two-Phase Three-Wire OS)
Go
10 More Current & Voltage Calculators
Go
Verified Maximum Voltage using Area of X-Section(3-Phase 3-Wire OS)
Go
Verified Resistivity using Area of X-Section(3-Phase 3-Wire OS)
Go
6 More Current & Voltage Calculators
Go
Verified Load Current (1-Phase 2-Wire US)
Go
Verified Load Current using Constant (1-Phase 2-Wire US)
Go
Verified Load Current using Line Losses (1-Phase 2-Wire US)
Go
Verified Load Current using Resistance (1-Phase 2-Wire US)
Go
Verified Maximum Voltage using Area of X-Section (1-Phase 2-Wire US)
Go
Verified Maximum Voltage using Constant (1-Phase 2-Wire US)
Go
Verified Maximum Voltage using Line Losses (1-Phase 2-Wire US)
Go
Verified Maximum Voltage using Resistance (1-Phase 2-Wire US)
Go
Verified RMS Voltage using Line Losses (1-Phase 2-Wire US)
Go
Verified RMS Voltage using Resistance (1-Phase 2-Wire US)
Go
7 More Current & Voltage Calculators
Go
Verified Maximum Phase Voltage between Outer and Neutral Wire (2-Phase 3-Wire US)
Go
Verified Maximum Voltage using Current in Each Outer (2-Phase 3-Wire US)
Go
Verified Maximum Voltage using Current in Neutral Wire (2-Phase 3-Wire US)
Go
Verified Maximum Voltage using RMS Voltage between Outer and Neutral Wire (2-Phase 3-Wire US)
Go
10 More Current & Voltage Calculators
Go
Verified Maximum Voltage between Each Phase and Neutral (3-Phase 3-Wire US)
Go
Verified Maximum Voltage using Load Current Per Phase (3-Phase 3-Wire US)
Go
Verified Maximum Voltage using RMS Voltage Per Phase (3-Phase 3-Wire US)
Go
11 More Current & Voltage Calculators
Go
Verified Load Current using Volume of Conductor Material (2 Phase 4 Wire US)
Go
9 More Current & Voltage Calculators
Go
Created Base Current of Input Differential BJT Amplifier
Go
Created Base Current of Input Differential BJT Amplifier given Emitter Resistance
Go
Created Collector Current of BJT Differential Amplifier given Emitter Current
Go
Created Collector Current of BJT Differential Amplifier given Emitter Resistance
Go
Created Emitter Current of BJT Differential Amplifier
Go
Created First Collector Current of BJT Differential Amplifier
Go
Created First Emitter Current of BJT Differential Amplifier
Go
Created Input Bias Current of Differential Amplifier
Go
Created Maximum Input Common-Mode Range Voltage of BJT Differential Amplifier
Go
Created Second Collector Current of BJT Differential Amplifier
Go
Created Second Emitter Current of BJT Differential Amplifier
Go
Created Input Resistance with Feedback Current Amplifier
Go
Created Output Resistance with Feedback Current Amplifier
Go
Verified Im for 0.1x Range Potentiometer
Go
Verified Im for 1x Range Potentiometer
Go
Verified Value of R2 of Multirange Potentiometer
Go
Verified Voltage Output of Volt Ratio Box in Coordinate Type Potentiometer
Go
2 More DC Circuits Calculators
Go
Verified Torque generated in DC Machine
Go
15 More DC Machine Characterstics Calculators
Go
Verified Back EMF Equation of DC Motor
Go
Verified Machine Construction Constant of DC Motor
Go
24 More DC Motor Characteristics Calculators
Go
Verified Common Mode Gain of BJT Differential Amplifier
Go
Verified Common Mode Rejection Ratio of BJT Differential Amplifier in dB
Go
Created Input Offset Current of Differential Amplifier
Go
Created Input Offset Voltage of BJT Differential Amplifier
Go
Created Current on Operation with Differential Input Voltage
Go
Created Maximum Differential Input Voltage of MOSFET given Overdrive Voltage
Go
Created Offset Voltage of MOSFET with Current-Mirror Load
Go
Created Output Voltage of Voltage Amplifier
Go
Verified Dissipation Factor of Known Capacitor in De Sauty Bridge
Go
Verified Dissipation Factor of Unknown Capacitor in De Sauty Bridge
Go
Verified Unknown Capacitance in De Sauty Bridge
Go
Verified Deflection at Free End given Deflection at Section of Column with Eccentric load
Go
Verified Deflection at Free End given Moment at Section of Column with Eccentric load
Go
Verified Deflection at Free End of Column with Eccentric load
Go
Verified Deflection at Section of Column with Eccentric Load
Go
Verified Deflection at Section of Column with Eccentric Load given Moment at Section
Go
Verified Distance of Section from Fixed End given Deflection at Section of Column with Eccentric Load
Go
Verified Final Deflection at Distance X from end A of Column
Go
Verified Initial Deflection at Distance X from end A
Go
Verified Maximum Deflection for Columns with Initial Curvature
Go
Verified Maximum Initial Deflection given Final Deflection at Distance X from End A of Column
Go
Verified Maximum Initial Deflection given Initial Deflection at Distance X from A
Go
Verified Maximum Initial Deflection given Maximum Deflection for Columns with Initial Curvature
Go
Verified Maximum Initial Deflection given Maximum Stress for Columns with Initial Curvature
Go
Verified Density of disc material given Radial stress in solid disc and outer radius
Go
Verified Density of material given Circumferential stress and Outer radius
Go
Verified Density of material given Circumferential stress at center of solid disc
Go
Verified Density of material given Circumferential stress in solid disc
Go
Verified Density of material given constant at boundary condition for circular disc
Go
Verified Density of material given maximum circumferential stress in solid disc
Go
Verified Density of material given maximum radial stress in solid disc
Go
Verified Density of material given Radial stress at center of solid disc
Go
Verified Density of material given Radial stress in solid disc
Go
Verified Diameter of rivet
Go
Verified Diameter of rivet given efficiency of riveted joint
Go
Verified Diameter of rivet(for dimension in cm)
Go
Verified Efficiency of riveted joint given pitch of rivet
Go
Verified Force transmitted across joints given number of rivets in small joint
Go
Verified Least rivet value for shearing and bearing given number of rivets in small joint
Go
Verified Number of rivets in small joint
Go
Verified Pitch of rivets given efficiency of riveted joint and diameter of rivet
Go
Verified Thickness of cover plate for butt joint with double cover plate
Go
Verified Thickness of cover plate for butt joint with single cover plate
Go
Verified Thickness of main plate given thickness of cover plate for butt joint with double cover plate
Go
Verified Thickness of main plate given thickness of cover plate for butt joint with single cover plate
Go
Verified Thickness of main plate(for dimension in cm)
Go
Verified Thickness of main plate(for dimension in mm)
Go
Verified Angle of Twist with known Shear Strain at Outer Surface of Shaft
Go
Verified Angle of Twist with known Shear Stress in Shaft
Go
Verified Angle of Twist with known Shear Stress induced at Radius r from Center of Shaft
Go
Verified Length of Shaft with known Shear Strain at Outer Surface of Shaft
Go
Verified Length of Shaft with known Shear Stress induced at Radius r from Center of Shaft
Go
Verified Length of Shaft with known Shear Stress induced at Surface of Shaft
Go
Verified Modulus of Rigidity of material of Shaft using Shear Stress-induced at Surface of Shaft
Go
Verified Modulus of Rigidity of Shaft if Shear Stress-induced at Radius 'r' from Center of Shaft
Go
Verified Radius of Shaft if Shear Stress induced at Radius r from Center of Shaft
Go
Verified Radius of Shaft using Shear Strain at Outer Surface of Shaft
Go
Verified Radius of Shaft using Shear Stress induced at Surface of Shaft
Go
Verified Shear Strain at Outer Surface of Circular Shaft
Go
Verified Shear Stress at Surface of Shaft using Shear Stress-induced at Radius 'r' from Center of Shaft
Go
Verified Shear Stress induced at Radius 'r' from Center of Shaft
Go
Verified Shear Stress induced at Radius 'r' from Center of Shaft using Modulus of Rigidity
Go
Verified Shear Stress induced at Surface of Shaft
Go
Verified Value of Radius r using Shear Stress induced at Radius r from Center of Shaft
Go
Created Diagonal of Rectangle given Angle between Breadth and Diagonal
Go
Created Diagonal of Rectangle given Circumradius
Go
21 More Diagonal of Rectangle Calculators
Go
Created Diagonal of Square given Circumradius
Go
Created Diagonal of Square given Inradius
Go
5 More Diagonal of Square Calculators
Go
Verified Diameter of rivet given crushing strength for double rivet
Go
Verified Diameter of rivet given crushing strength for 'n' number of rivets
Go
Verified Diameter of rivet given crushing strength for single rivet
Go
Verified Diameter of rivet given crushing strength for triple-rivet
Go
Verified Diameter of rivet given shearing strength if rivet is in double shear
Go
Verified Diameter of rivet given shearing strength if rivet is in single shear
Go
Verified Diameter of rivet given tearing strength of rivet
Go
Verified Diameter of Spring Wire given Deflection of Spring
Go
Verified Diameter of Spring Wire given Maximum Shear Stress induced in Wire
Go
Verified Diameter of Spring Wire given Stiffness of Helical Spring
Go
Verified Diameter of Spring Wire given Strain Energy Stored by Spring
Go
Verified Diameter of Spring Wire given Twisting Moment
Go
Verified Diameter of wire given bursting force due to fluid pressure
Go
Verified Diameter of wire given compressive circumferential stress exerted by wire
Go
Verified Diameter of wire given initial tensile force and length of wire
Go
Verified Diameter of wire given initial tensile force in wire
Go
Verified Diameter of wire given number of turns of wire in length L
Go
Verified Diameter of wire given resisting force of wire per cm length
Go
Verified Diameter of wire given resisting force on wire
Go
Created Differential Voltage Gain in MOS Differential Amplifier
Go
Created Input Offset Voltage of MOS Differential Amplifier
Go
Created Input Offset Voltage of MOS Differential Amplifier given Saturation Current
Go
Created Input Offset Voltage of MOS Differential Amplifier when Aspect Ratio Mismatches
Go
Created Input Voltage of MOS Differential Amplifier on Small-Signal Operation
Go
Created Maximum Input Common-Mode Range of MOS Differential Amplifier
Go
Created Minimum Input Common-Mode Range of MOS Differential Amplifier
Go
Created Total Input Offset Voltage of MOS Differential Amplifier given Saturation Current
Go
Created Transconductance of MOS Differential Amplifier on Small-Signal Operation
Go
Verified Output Voltage of Binary Weighted Converter
Go
Verified Output Voltage of Inverted R-2R Linear Converter
Go
Verified Output Voltage of R-2R Linear Converter
Go
Created Capacitance of Varactor Diode
Go
Created Cut-off Frequency of Varactor Diode
Go
Created Diode Equation for Germanium at Room Temperature
Go
Created Ideal Diode Equation
Go
Created Maximum Wavelight
Go
Created Non-Ideal Diode Equation
Go
Created Quality Factor of Varactor Diode
Go
Created Self-Resonance Frequency of Varactor Diode
Go
Created Thermal Voltage of Diode Equation
Go
Verified Zener Resistance
Go
6 More Diode Characteristics Calculators
Go
Verified Constant for Particular Shaft for Torsion Dynamometer
Go
Verified Distance Moved in One Revolution by Rope Brake Dynamometer
Go
Verified Load on Brake for Rope Brake Dynamometer
Go
Verified Tangential Effort for Epicyclic-Train Dynamometer
Go
Verified Tension in Slack Side of Belt for Belt Transmission Dynamometer
Go
Verified Tension in Tight Side of Belt for Belt Transmission Dynamometer
Go
Verified Torsion Equation for Torsion Dynamometer
Go
Verified Torsion Equation for Torsion Dynamometer using Modulus of Rigidity
Go
Created Eccentricity of Hyperbola
Go
Created Eccentricity of Hyperbola given Linear Eccentricity and Semi Transverse Axis
Go
5 More Eccentricity of Hyperbola Calculators
Go
Verified Diameter of cylindrical shell given change in length of cylindrical shell
Go
Verified Diameter of thin cylindrical shell given volumetric strain
Go
Verified Diameter of thin cylindrical strain given volumetric strain
Go
Verified Hoop stress given circumferential strain
Go
Verified Hoop stress in thin cylindrical vessel given Longitudinal strain
Go
Verified Internal diameter of thin cylindrical vessel given circumferential strain
Go
Verified Internal diameter of thin cylindrical vessel given longitudinal strain
Go
Verified Internal fluid pressure given change in length of cylindrical shell
Go
Verified Internal fluid pressure given circumferential strain
Go
Verified Internal fluid pressure in shell given volumetric strain
Go
Verified Internal fluid pressure in thin cylindrical vessel given change in diameter
Go
Verified Internal fluid pressure in thin cylindrical vessel given longitudinal strain
Go
Verified Length of cylindrical shell given change in length of cylindrical shell
Go
Verified Length of cylindrical shell given change in volume of cylindrical shell
Go
Verified Length of thin cylindrical strain given volumetric strain
Go
Verified Longitudinal stress given circumferential strain
Go
Verified Longitudinal stress in thin cylindrical vessel given Longitudinal strain
Go
Verified Original circumference of thin cylindrical vessel given circumferential strain
Go
Verified Original diameter of thin cylindrical vessel given circumferential strain
Go
Verified Original diameter of vessel given change in diameter
Go
Verified Original length of vessel given longitudinal strain
Go
Verified Original volume of cylindrical shell given volumetric strain
Go
Verified Volume of thin cylindrical shell given circumferential and longitudinal strain
Go
Verified Efficiency of circumferential joint given longitudinal stress
Go
Verified Efficiency of longitudinal joint given hoop stress
Go
Verified Hoop stress given efficiency of longitudinal joint
Go
Verified Internal diameter of vessel given hoop stress and efficiency of longitudinal joint
Go
Verified Internal diameter of vessel given longitudinal stress and efficiency of circumferential joint
Go
Verified Internal fluid pressure given longitudinal stress and efficiency of circumferential joint
Go
Verified Internal fluid pressure in vessel given hoop stress and efficiency of longitudinal joint
Go
Verified Longitudinal stress given efficiency of circumferential joint
Go
Verified Thickness of vessel given hoop stress and efficiency of longitudinal joint
Go
Verified Thickness of vessel given longitudinal stress and efficiency of circumferential joint
Go
Verified Effort of Porter Governor if Angle Made by Upper and Lower Arms are Equal
Go
Verified Effort of Porter Governor if Angle Made by Upper and Lower Arms are Not Equal
Go
Verified Radial Force on Each Ball in Porter Governor
Go
6 More Effort and Force Calculators
Go
Created Angular Speed of Particle in Magnetic Field
Go
13 More Electrostatic Parameters Calculators
Go
Created Electric Field
Go
12 More Electrostatics Calculators
Go
Created Emitter Current given Base Current
Go
Created Emitter Current given Collector Current
Go
Created Emitter Current given Saturation Current
Go
Created Emitter Current of BJT
Go
Created Emitter Current through Minority Carrier Concentration
Go
Created Emitter Current using Collector Current and Current Gain
Go
Created Emitter Current using Common Emitter Current Gain
Go
Created Emitter Current using Transistor Constant
Go
1 More Emitter Current Calculators
Go
Created Base Resistance across Emitter follower Junction
Go
Created Collector Current in Active Region when Transistor Acts as Amplifier
Go
Created Collector Current of Emitter Follower Transistor
Go
Created Input Resistance of Emitter Follower
Go
Created Input Resistance of Transistor Amplifier
Go
Created Input Voltage of Emitter Follower
Go
Created Output Resistance of Emitter Follower
Go
Created Output Resistance of Transistor at Intrinsic Gain
Go
Created Saturation Current of Emitter Follower
Go
Created Total Emitter Resistance of Emitter Follower
Go
Verified Capacitive Current in End Condenser Method
Go
Verified Impedance using A Parameter in End Condenser Method
Go
Verified Receiving End Voltage in End Condenser Method
Go
Verified Sending End Current using Losses in End Condenser Method
Go
Verified Transmission Efficiency in End Condenser Method
Go
12 More End Condenser Method in Medium Line Calculators
Go
Created Heat Energy given Electric Potential Difference and Electric Current
Go
Created Heat Energy given Electric Potential Difference and Resistance
Go
Created Heat Generated through Resistance
Go
3 More Energy and Power Calculators
Go
Created Energy Density given Electric Field
Go
Verified Energy Density in Electric Field
Go
Created Energy Density in Electric Field given Free Space Permittivity
Go
4 More Energy Density and Energy Stored Calculators
Go
Verified Acceleration of Body given Stiffness of Constraint
Go
Verified Angular Velocity of Free Longitudinal Vibrations
Go
Verified Displacement of Body given Stiffness of Constraint
Go
Verified Gravitational Pull Balanced by Spring Force
Go
Verified Length of Constraint
Go
Verified Load Attached to Free End of Constraint
Go
Verified Restoring Force
Go
Verified Restoring Force using Weight of Body
Go
Verified Static Deflection given Natural Frequency
Go
Verified Time Period of Free Longitudinal Vibrations
Go
2 More Equilibrium Method Calculators
Go
Verified Actual Length given Slenderness Ratio
Go
Verified Actual Length of Column given Effective Length if Both Ends of Column are Fixed
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Verified Actual Length of Column given Effective Length if One End is Fixed Other is Free
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Verified Actual Length of Column given Effective Length if One End is Fixed Other is Hinged
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Verified Effective Length of Column given Actual Length if Both Ends of Column are Fixed
Go
Verified Effective Length of Column given Actual Length if One End is Fixed Other is Free
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Verified Effective Length of Column given Actual Length if One End is Fixed Other is Hinged
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Verified Effective Length of Column given Crippling Load for any type of End Condition
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Verified Least Radius of Gyration given Slenderness Ratio
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Verified Modulus of Elasticity given Crippling Load for any type of End Condition
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Verified Moment of Inertia given Crippling Load for any type of End Condition
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3 More Estimation of Effective Length of Columns Calculators
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Verified Crippling Load by Euler's Formula
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Verified Crippling Load by Euler's Formula given Crippling Load by Rankine's Formula
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Verified Crippling Load by Rankine's Formula
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Verified Crippling Load given Rankine's Constant
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Verified Cross-Sectional Area of Column given Crippling Load and Rankine's Constant
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Verified Cross-Sectional Area of Column given Crushing Load
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Verified Crushing Load by Rankine's Formula
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Verified Crushing Load given Ultimate Crushing Stress
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Verified Effective Length of Column given Crippling Load and Rankine's Constant
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Verified Effective Length of Column given Crippling Load by Euler's Formula
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Verified Least Radius of Gyration given Crippling Load and Rankine's Constant
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Verified Modulus of Elasticity given Crippling Load by Euler's Formula
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Verified Modulus of Elasticity given Rankine's Constant
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Verified Moment of Inertia given Crippling Load by Euler's Formula
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Verified Rankine's Constant
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Verified Rankine's Constant given Crippling Load
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Verified Ultimate Crushing Stress given Crippling Load and Rankine's Constant
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Verified Ultimate Crushing Stress given Crushing Load
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Verified Ultimate Crushing Stress given Rankine's Constant
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Verified Inner diameter of shaft given total strain energy in hollow shaft
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Verified Length of shaft given shear strain energy in ring of radius r
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Verified Length of shaft given total strain energy stored in shaft
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Verified Modulus of rigidity given shear strain energy
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Verified Modulus of rigidity of shaft given shear strain energy in ring of radius 'r'
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Verified Modulus of rigidity of shaft given total strain energy in hollow shaft
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Verified Modulus of rigidity of shaft given total strain energy in shaft due to torsion
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Verified Modulus of Rigidity of Shaft given Total Strain Energy Stored in Shaft
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Verified Polar Moment of Inertia of Shaft given Total Strain Energy Stored in Shaft
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Verified Radius of shaft given shear strain energy in ring of radius r
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Verified Radius of shaft given shear stress at radius r from center
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Verified Radius of Shaft given Total Strain Energy Stored in Shaft
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Verified Shear strain energy
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Verified Shear strain energy in ring of radius 'r'
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Verified Total strain energy in hollow shaft due to torsion
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Verified Total strain energy in shaft due to torsion
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Verified Total Strain Energy Stored in Shaft
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Verified Value of radius 'r' given shear strain energy in ring of radius 'r'
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Verified Value of radius 'r' given shear stress at radius 'r' from center
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Verified Volume given shear strain energy
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Verified Volume of shaft given total strain energy in hollow shaft
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Verified Volume of Shaft given Total Strain Energy in Shaft due to Torsion
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Verified Angular speed of rotation for thin cylinder given hoop stress in thin cylinder
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Verified Density of cylinder material given hoop stress (for thin cylinder)
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Verified Density of material of cylinder given hoop stress and tangential velocity
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Verified Final circumference given circumferential strain for rotating thin disc
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Verified Hoop stress in thin cylinder
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Verified Hoop stress in thin cylinder given tangential velocity of cylinder
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Verified Increase in radius given circumferential strain for rotating thin disc
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Verified Increase in radius of disc given stresses
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Verified Initial circumference given circumferential strain for rotating thin disc
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Verified Mean radius of cylinder given hoop stress in thin cylinder
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Verified Modulus of elasticity given circumferential strain on disc
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Verified Modulus of elasticity given initial radial width of disc
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Verified Modulus of elasticity given radial strain on disc
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Verified Modulus of elasticity given radius of disc
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Verified Poisson's ratio given circumferential strain on disc
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Verified Poisson's ratio given initial radial width of disc
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Verified Poisson's ratio given radial strain on disc
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Verified Poisson's ratio given radius of disc
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Verified Radius of disc given circumferential strain for rotating thin disc
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Verified Radius of disc given stresses on disc
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Verified Tangential velocity of cylinder given hoop stress in thin cylinder
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Verified Circumferential stress at center of solid disc
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Verified Circumferential stress in solid disc
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Verified Circumferential stress in solid disc given Outer radius
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Verified Constant at boundary condition for circular disc
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Verified Constant at boundary condition given Circumferential stress in solid disc
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Verified Constant at boundary condition given Radial stress in solid disc
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Verified Maximum circumferential stress in solid disc
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Verified Maximum Radial Stress in solid disc
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Verified Poisson's ratio given Circumferential stress at center of solid disc
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Verified Poisson's ratio given Circumferential stress in solid disc
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Verified Poisson's ratio given constant at boundary condition for circular disc
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Verified Poisson's Ratio given max circumferential stress in solid disc
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Verified Poisson's ratio given maximum radial stress in solid disc
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Verified Poisson's ratio given Radial stress at center of solid disc
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Verified Poisson's ratio given Radial stress in solid disc
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Verified Poisson's ratio given Radial stress in solid disc and outer radius
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Verified Radial stress at center of solid disc
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Verified Radial stress in solid disc
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Verified Radial stress in solid disc given Outer radius
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Verified Angle of Twist for Shaft given Polar Moment of Inertia and Modulus of Rigidity
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Verified Diameter of shaft given polar moment of inertia of shaft
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Verified Length of Shaft given Polar Moment of Inertia and Modulus of Rigidity
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Verified Maximum shear stress in shaft given polar moment of inertia
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Verified Modulus of Rigidity of Shaft given Torque Transmitted and Polar Moment of Inertia
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Verified Polar moment of inertia of shaft
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Verified Polar Moment of Inertia of Shaft given Torque Transmitted and Modulus of Rigidity
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Verified Polar moment of inertia of shaft given torque transmitted by shaft
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Verified Radius of shaft given polar moment of inertia
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Verified Torque transmitted by shaft given polar moment of inertia
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Verified Torque Transmitted by Shaft given Polar Moment of Inertia and Modulus of Rigidity
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Verified Allowable crushing stress given safe load which rivet can withstand against crushing
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Verified Allowable crushing stress given safe load which rivet can withstand for given projected area
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Verified Allowable crushing stress given strength of joint per pitch length (double rivet)
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Verified Allowable crushing stress given strength of joint per pitch length (single rivet)
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Verified Allowable crushing stress given strength of joint per pitch length (triple rivet)
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Verified Allowable crushing stress given strength of joint per pitch length of joint against crushing
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Verified Diameter of rivet given safe load that rivet can withstand against crushing
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Verified Diameter of rivet given strength of joint per pitch length (double rivet)
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Verified Diameter of rivet given strength of joint per pitch length (single rivet)
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Verified Diameter of rivet given strength of joint per pitch length (triple-rivet)
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Verified Diameter of rivet given strength of joint per pitch length of joint against crushing
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Verified Number of rivets given strength of joint per pitch length of joint against crushing
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Verified Projected area given safe load which rivet can withstand against crushing
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Verified Safe load which rivet can withstand against crushing
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Verified Safe load which rivet can withstand against crushing given projected area
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Verified Strength of joint per pitch length of joint against crushing
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Verified Strength of joint per pitch length of joint against crushing (triple rivet)
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Verified Strength of joint per pitch length of joint against crushing(double rivet)
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Verified Strength of joint per pitch length of joint against crushing(single rivet)
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Verified Thickness of plates given safe load which rivet can withstand against crushing
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Verified Thickness of plates given strength of joint per pitch length (double rivet)
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Verified Thickness of plates given strength of joint per pitch length (single rivet)
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Verified Thickness of plates given strength of joint per pitch length (triple rivet)
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Verified Thickness of plates given strength of joint per pitch length of joint against crushing
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Verified Diameter of rivet given safe load for butt joint with double cover plates and double shear
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Verified Diameter of rivet given safe load for double rivet butt joint with single cover plates
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Verified Diameter of rivet given safe load for lap joint for single shear
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Verified Diameter of rivet given safe load for single rivet butt joint with single cover plates
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Verified Diameter of rivet given safe load per pitch length in double rivet lap joint
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Verified Diameter of rivet given safe load per pitch length in single rivet lap joint
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Verified Diameter of rivet given safe load per pitch length in triple-rivet lap joint
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Verified Diameter of rivet given strength of joint for butt joint with double cover plates
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Verified Diameter of rivet given strength of joint for lap joint with single shear
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Verified Diameter of rivets given safe load for triple-rivet butt joint with single cover plates
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Verified Number of rivets covered per pitch length given strength of joint for single shear lap joint
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Verified Number of rivets per pitch length given strength of joint for butt joint with double cover plates
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Verified Safe load per pitch length given triple-rivet lap joint
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Verified Safe Load per Pitch Length using Butt Joint with Double Cover Plates and Double Shear
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Verified Safe Load per Pitch Length using Double Rivet Butt Joint with Single Cover Plates
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Verified Safe Load per Pitch Length using Double Rivet Lap Joint
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Verified Safe Load per Pitch Length using Single Rivet Butt Joint with Single Cover Plates
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Verified Safe Load per Pitch Length using Single Rivet Lap Joint
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Verified Safe Load per Pitch Length using Triple-Rivet Butt Joint with Single Cover Plates
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Verified Safe load rivet can withstand for lap joint of single shear
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Verified Strength of Joint per Pitch Length using Butt Joint with Double Cover Plates
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Verified Strength of Joint per Pitch Length using Lap Joint with Single Shear
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Verified Area of plate for given safe tensile load that plate can withstand
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Verified Diameter of rivet given safe tensile load that plate can withstand
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Verified Pitch of rivet given safe tensile load that plate can withstand
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Verified Safe tensile load that plate can withstand
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Verified Safe tensile load that plate can withstand given area of plate
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Verified Safe tensile stress given area of base plate and tensile load
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Verified Safe tensile stress in plate
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Verified Thickness of Plate given safe tensile load that plate can withstand
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Verified Diameter of rivet given margin
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Verified Margin given diameter of rivet
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Verified Area of Cross Section of Column given Crushing Stress
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Verified Area of Cross-Section given Compressive Stress Induced during Failure of Short Column
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Verified Area of Cross-Section given Stress due to Direct Load for Long Column
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Verified Compressive Load given Compressive Stress Induced during Failure of Short Column
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Verified Compressive Load given Stress Due to Direct Load for Long Column
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Verified Compressive Stress Induced during Failure of Short Column
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Verified Crushing Load for Short Column
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Verified Crushing Stress for Short Column
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Verified Maximum Stress for Failure of Long Column
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Verified Minimum Stress for Failure of Long Column
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Verified Section Modulus about Axis of Bending for Long Column
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Verified Stress Due to Bending at Center of Column given Maximum Stress for Failure of Long Column
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Verified Stress Due to Bending at Center of Column given Minimum Stress for Failure of Long Column
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Verified Stress Due to Direct Load for Long Column
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Verified Stress Due to Direct Load given Maximum Stress for Failure of Long Column
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Verified Diameter of bolt given maximum load that can be resisted by one bolt
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Verified Diameter of bolt given torque resisted by n bolts
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Verified Diameter of bolt given torque resisted by one bolt
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Verified Diameter of bolt pitch circle given torque resisted by n bolts
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Verified Diameter of bolt pitch circle given torque resisted by one bolt
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Verified Diameter of shaft given torque transmitted by shaft
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Verified Maximum amount of load that can be resisted by one bolt
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Verified Number of bolts given torque resisted by n bolts
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Verified Shear stress in bolt given torque resisted by n bolts
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Verified Shear stress in bolt given torque resisted by one bolt
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Verified Shear Stress in Bolt using Maximum Load that can be Resisted by One Bolt
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Verified Shear stress in shaft given torque transmitted by shaft
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Verified Torque resisted by one bolt given shear stress in bolt
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Verified Torque Resisted by One Bolt using Load Resisted by One Bolt
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Verified Torque transmitted by shaft
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Verified Total torque resisted by n number of bolts
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Created Focal Parameter of Hyperbola
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7 More Focal Parameter of Hyperbola Calculators
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Force (7)
Verified Braking Force on Drum for Simple Band Brake
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Verified Maximum Braking Force Acting at Front Wheels when Brakes are Applied to Front Wheels only
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Verified Maximum Value of Total Braking Force Acting at Rear Wheels when Brakes Applied to Rear Wheels only
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Verified Tangential Braking Force Acting at Contact Surface of Block and Wheel for Shoe Brake
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Verified Tangential Braking Force given Normal Force on Brake Block
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Verified Total Braking Force Acting at Front Wheels (when Brakes are Applied to Front Wheels only)
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Verified Total Braking Force Acting at Rear Wheels when Brakes are Applied to Rear Wheels only
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3 More Force Calculators
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Force (5)
Verified Bursting force due to fluid pressure
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Verified Bursting force of cylinder given stress due to fluid pressure
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Verified Initial compressive force in cylinder for length 'L'
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Verified Initial tensile force in wire for length 'L'
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Verified Initial tensile force in wire for length 'L' given length of cylinder
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Verified Allowable Axial Compression Stress for Slenderness Ratio 0 to 160
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Verified Allowable Axial Compression Stress for Slenderness Ratio greater than 160
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Verified Effective Column Length given Allowable Axial Compression Stress
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Verified Effective Column Length given Allowable Axial Compression Stress, SL Ratio Greater than 160
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Verified Least Radius of Gyration given Allowable Axial Compression Stress
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Verified Least Radius of Gyration given Allowable Axial Compression Stress Slenderness Ratio More 160
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Verified Minimum Yield Stress for Allowable Axial Compression Stress for Slenderness Ratio between 0 to 160
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Verified Slenderness Ratio given Allowable Axial Compression Stress
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Verified Value Obtained from Secant Formula given Allowable Axial Compression Stress
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Verified Value Obtained from Secant given Axial Compression Stress Slenderness Ratio Greater than 160
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Created Closed Loop Gain
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Created Closed Loop Negative Feedback Gain
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Created Gain-Bandwidth Product
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16 More Fundamental Parameters Calculators
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Verified Energy Efficiency
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Verified Energy Required by Furnace to Melt Steel
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Verified Heat Conduction
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Verified Heat Radiation
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4 More Furnace Heating Calculators
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Gain (2)
Created Common-Mode Current Gain of Controlled Source Transistor
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Created Common-Mode Gain of Controlled Source Transistor
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Verified Average Current through Galvanometer
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15 More Galvanometer Calculators
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Verified Apogee Heights
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Verified Length of Radius Vectors at Apogee
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Verified Length of Radius Vectors at Perigee
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Verified Perigee Heights
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10 More Geostationary Orbit Calculators
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Created Gravitational Field Intensity
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Created Gravitational Field Intensity due to Point Mass
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Created Gravitational Potential Energy
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Created Time Period of Satellite
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Created Universal Law of Gravitation
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Created Gravitational Field of Ring
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Created Gravitational Field of Ring given Angle at any Point Outside Ring
Go
Created Gravitational Field of Thin Circular Disc
Go
Created Gravitational Field when Point is Inside of Non Conducting Solid Sphere
Go
Created Gravitational Field when Point is Outside of Conducting Solid Sphere
Go
Created Gravitational Field when Point is Outside of Non Conducting Solid Sphere
Go
Created Gravitational Potential
Go
Created Gravitational Potential of Ring
Go
Created Gravitational Potential of Thin Circular Disc
Go
Created Gravitational Potential when Point is Inside of Conducting Solid Sphere
Go
Created Gravitational Potential when Point is Inside of Non Conducting Solid Sphere
Go
Created Gravitational Potential when Point is Outside of Conducting Solid Sphere
Go
Created Gravitational Potential when Point is Outside of Non Conducting Solid Sphere
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Verified Quality Factor of Hay Bridge using Capacitance
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Verified Unknown Inductance in Hay Bridge
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Verified Unknown Resistance of Hay Bridge
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Created Power given Electric Current and Resistance
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Created Power given Electric Potential Difference and Resistance
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9 More Heat Input in Welding Calculators
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Verified Average Load on Spring
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Verified Deflection given Average Load on Spring
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Verified Deflection of Spring given Stiffness of Spring
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Verified Deflection of Spring given Work Done on Spring
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Verified Maximum Shear Stress induced in Wire
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Verified Maximum Shear Stress induced in Wire given Twisting Moment
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Verified Modulus of Rigidity given Deflection of Spring
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Verified Modulus of Rigidity given Stiffness of Helical Spring
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Verified Modulus of Rigidity given Strain Energy Stored by Spring
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Verified Number of Coils given Deflection of Spring
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Verified Number of Coils given Strain Energy Stored by Spring
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Verified Number of Coils given Total Length of Wire of Spring
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Verified Number of Coils of Helical Spring given Stiffness of Spring
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Verified Stiffness of Helical Spring
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Verified Stiffness of Spring given Deflection of Spring
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Verified Strain Energy Stored by Spring
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Verified Total Length of Wire of Helical Spring
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Verified Total Length of Wire of Helical Spring given Mean Radius of Spring Roll
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Verified Twisting Moment given Maximum Shear Stress induced in Wire
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Verified Twisting Moment on Wire of Helical Spring
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Verified Work Done on Spring given Average Load
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Verified Work Done on Spring given Axial Load on Spring
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Verified Secondary Voltage greater than Capacitor Voltage in Potential Divider
Go
Verified Secondary Voltage in Potential Divider
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Verified Force due to circumferential stress in thin cylindrical vessel
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Verified Force due to fluid pressure in thin cylindrical vessel
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Verified Hoop stress
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Verified Hoop stress given force due to circumferential stress in thin cylindrical vessel
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Verified Internal diameter of vessel given Force due to fluid pressure in thin cylindrical vessel
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Verified Internal diameter of vessel given hoop stress
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Verified Internal pressure of fluid given Force due to fluid pressure in thin cylindrical vessel
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Verified Internal pressure of fluid in vessel given hoop stress
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Verified Length of vessel given Force due to fluid pressure in thin cylindrical vessel
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Verified Length of vessel in given force due to circumferential stress in thin cylindrical vessel
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Verified Thickness of vessel given hoop stress
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Verified Vessel thickness given force due to circumferential stress in thin cylindrical vessel
Go
Verified Hydroelectric Power
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Verified Tidal Energy
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21 More Hydroelectric Power Plant Calculators
Go
Created Emitter Resistance in Widlar Current Source
Go
Created Finite Output Resistance of IC Amplifier
Go
Created Intrinsic Gain of IC Amplifier
Go
Created Output Current
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Created Output Current of Wilson Current Mirror
Go
Created Output Resistance of Widlar Current Source
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Created Output Resistance of Wilson Current Mirror
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Created Output Resistance of Wilson MOS Mirror
Go
Created Reference Current of IC Amplifier
Go
Created Reference Current of Wilson Current Mirror
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Verified Candle Power
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Verified Depreciation Factor
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Verified Illumination
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Verified Lamp Efficiency
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Verified Lumens
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Verified Luminous Flux
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Verified Maintenance Factor
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Verified Mean Hemi-Spherical Candle Power
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Verified Mean Horizontal Candle Power
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Verified Mean Spherical Candle Power
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Verified Number of Lamps Required for Illumination
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Verified Reduction Factor
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Verified Solid Angle
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2 More Illumination Parameters Calculators
Go
Created Impedance for LCR Circuit
Go
Created Impedance for LR Circuit
Go
Created Impedance for RC Circuit
Go
1 More Impedance Calculators
Go
Verified Fault Impedance using A-Phase Voltage(LGF)
Go
Verified Negative Sequence Impedance for L-G-F
Go
Verified Negative Sequence Impedance using A-Phase EMF (LGF)
Go
Verified Positive Sequence Impedance for L-G-F
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Verified Positive Sequence Impedance using A-Phase EMF (LGF)
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Verified Zero Sequence Impedance for L-G-F
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Verified Zero Sequence Impedance using A-Phase EMF (LGF)
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3 More Impedance Calculators
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Verified Fault Impedance using Positive Sequence Current (LLF)
Go
3 More Impedance Calculators
Go
Verified Fault Impedance using B-Phase Voltage (LLGF)
Go
Verified Fault Impedance using C-Phase Voltage (LLGF)
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4 More Impedance Calculators
Go
Verified Impedance-1 for Transmitted Coefficient of Current-2 (Line PL)
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Verified Impedance-2 using Transmitted Coefficient of Current-2 (Line PL)
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Verified Impedance-3 using Reflected Coefficient of Current (Line PL)
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Verified Impedance-3 using Reflected Coefficient of Voltage (Line PL)
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Verified Impedance-3 using Transmitted Coefficient of Current-3 (Line PL)
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15 More Impedance-1,2 & 3 Calculators
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Created Inradius of Square
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Created Inradius of Square given Area
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Created Inradius of Square given Diameter of Circumcircle
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Created Inradius of Square given Diameter of Incircle
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Created Inradius of Square given Perimeter
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2 More Inradius of Square Calculators
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Verified DC Meter Sensitivity
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32 More Instrument Characteristics Calculators
Go
Verified Turns Ratio in Transformer Ratio Method
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Verified Voltage of Secondary Coil in Transformer Ratio Method
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4 More Instrument Transformer Calculators
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Created Common Mode Gain of Difference Amplifiers
Go
Verified Differential Gain of Difference Amplifier
Go
Created Gain of Feedback Operational Amplifier
Go
Verified Integrator Frequency
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Verified Output Voltage 1 of Difference Amplifier
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Verified Output Voltage 2 of Difference Amplifier
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Verified Output Voltage of Difference Amplifier
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1 More Integrator & Difference Calculators
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Created Intensity of Constructive Interference
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Created Intensity of Destructive Interference
Go
Created Interference of Waves of Two Intensities
Go
Created Conductance of Channel of MOSFETs
Go
Created Gate to Source Channel Width of MOSFET
Go
Created Magnitude of Electron Charge in Channel of MOSFET
Go
Created Overlap Capacitance of MOSFET
Go
Created Total Capacitance between Gate and Channel of MOSFETs
Go
Created Transition Frequency of MOSFET
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9 More Internal Capacitive Effects and High Frequency Model Calculators
Go
Created Base-Emitter Junction Capacitance
Go
Created Collector-Base Junction Capacitance
Go
Created Concentration of Electrons Injected from Emitter to Base
Go
Created Small-Signal Diffusion Capacitance
Go
Created Small-Signal Diffusion Capacitance of BJT
Go
Created Stored Electron Charge in Base of BJT
Go
Created Thermal Equilibrium Concentration of Minority Charge Carrier
Go
Created Transition Frequency of BJT
Go
Created Transition Frequency of BJT given Device Constant
Go
Created Unity-Gain Bandwidth of BJT
Go
1 More Internal Capacitive Effects and High Frequency Model Calculators
Go
Created Closed Loop Gain of Non Inverting Amplifier Circuit
Go
Verified Closed Loop Gain of Operational Amplifier
Go
Verified Common Mode Input Signal of Operational Amplifier
Go
Verified Current in Finite Open-Loop Gain in Operational Amplifier
Go
Verified Differential Input Signal
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Verified Integrator Frequency of Inverting Amplifier
Go
Verified Magnitude of Integrator Transfer Function
Go
Verified Output Voltage of Finite Open-Loop Gain of Operational Amplifier
Go
Verified Output Voltage of Non Inverting Configuration
Go
Created Percentage Gain Error of Non Inverting Amplifier
Go
Verified Compressive Yield Stress According to Johnson's Parabolic Formula
Go
Verified Compressive Yield Stress According to Johnson's Parabolic Formula given Slenderness Ratio
Go
Verified Constant Depending on Material of Column According to Johnson's Parabolic Formula
Go
Verified Constant Depending on Material of Column According to Terms Slenderness Ratio
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Verified Critical Load on Column According to Johnson's Parabolic Formula
Go
Verified Critical Load on Column According to Johnson's Parabolic Formula given Slenderness Ratio
Go
Verified Cross-Sectional Area According to Johnson's Parabolic Formula given Slenderness Ratio
Go
Verified Cross-Sectional Area of Column According to Johnson's Parabolic Formula
Go
Verified Effective Length of Column According to Johnson's Parabolic Formula
Go
Verified Least Radius of Gyration According to Johnson's Parabolic Formula
Go
Verified Slenderness Ratio According to Johnson's Parabolic Formula
Go
Verified Unknown Resistance in Kelvin Bridge
Go
2 More Kelvin Bridge Calculators
Go
Verified External Length of hollow Rectangular Section using Section Modulus about y-y axis
Go
Verified External Width of Hollow Rectangular Section given Section Modulus about x-x axis
Go
Verified Internal Length of Hollow Rectangular Section given Section Modulus about x-x axis
Go
Verified Internal Length of Hollow Rectangular Section using Section Modulus about y-y axis
Go
Verified Internal Width of Hollow Rectangular Section given Section Modulus about x-x axis
Go
Verified Maximum eccentricity of load about x axis for hollow rectangular section
Go
Verified Maximum eccentricity of load about y axis for hollow rectangular section
Go
Verified Section modulus about x-x axis for hollow rectangular section in terms length and width of section
Go
Verified Section Modulus about y-y axis for Hollow Rectangular Section given Dimension of Section
Go
Verified Section Modulus about y-y axis for Hollow Rectangular Section given Moment of Inertia
Go
3 More Kernel Of Hollow Rectangular Section Calculators
Go
Created Latus Rectum of Ellipse given Semi Latus Rectum
Go
9 More Latus Rectum of Ellipse Calculators
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Created Latus Rectum of Hyperbola
Go
11 More Latus Rectum of Hyperbola Calculators
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Created Length of Rectangle given Angle between Breadth and Diagonal
Go
Created Length of Rectangle given Area and Breadth
Go
Created Length of Rectangle given Diagonal and Breadth
Go
Created Length of Rectangle given Diagonal and Obtuse Angle between Diagonals
Go
Created Length of Rectangle given Perimeter and Breadth
Go
28 More Length of Rectangle Calculators
Go
Verified Length of Weld given Area of Fillet Weld and Throat Thickness for Double Fillet Lap Joint
Go
Verified Length of Weld given Area of Fillet Weld and Throat Thickness for Single Fillet Lap Joint
Go
Verified Length of Weld given Area of Fillet Weld for Double Fillet Lap Joint
Go
Verified Length of Weld given Area of Fillet Weld for Single Fillet Lap Joint
Go
Verified Length of Weld given Area of Parallel Fillet Weld
Go
Verified Length of Weld given Area of Parallel Fillet Weld and Throat Thickness
Go
Verified Length of Weld given Tensile Force for Butt Weld Joint
Go
Verified Length of Weld given Tensile Strength of Double Fillet Lap
Go
Verified Length of Weld given Tensile Strength of Single Fillet Lap Joint
Go
Verified Lift of Sleeve at Maximum Radius of Rotation for Hartnell Governor
Go
Verified Lift of Sleeve at Minimum Radius of Rotation for Hartnell Governor
Go
Verified Lift of Sleeve Corresponding to Deflection
Go
Verified Total Lift of Sleeve for Hartnell Governor
Go
Verified Total Lift of Sleeve for Hartnell Governor given Maximum and Minimum Lift
Go
Verified Incident Current using Transmitted Current (Line OC)
Go
Verified Transmitted Current (Line OC)
Go
1 More Line Is Open Circuited Calculators
Go
Verified Incident Current using Reflected Current (Line SC)
Go
Verified Transmitted Voltage (Line SC)
Go
2 More Line Is Short Circuited Calculators
Go
Verified Losses using Transmission Efficiency (STL)
Go
Verified Resistance using Losses (STL)
Go
3 More Line Parameters Calculators
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Verified Line Losses using Constant (1-Phase 2-Wire US)
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6 More Line Parameters Calculators
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Verified Base Current
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Verified Base Current for Three-Phase System
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Verified Base Impedance given Base Current
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Verified Base Power
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Verified Base Voltage
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Verified Penetration Depth of Eddy Currents
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Verified Phase Current for Balanced Three-Phase Delta Connection
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Verified Phase Voltage for Balanced Three-Phase Star Connection
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7 More Line Performance Characteristics Calculators
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Verified Fault Impedance using A-Phase Current
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Verified Fault Impedance using Positive Sequence Current
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Verified Negative Sequence Impedance for Delta Connected Load
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Verified Positive Sequence Impedance for Delta Connected Load
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Verified Sequence Impedance
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Verified Zero Sequence Impedance for Delta Connected Load
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Verified Zero Sequence Impedance for Star Connected Load
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Verified Incident Current using Impedance-1 (Line PL)
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Verified Incident Current using Transmitted Coefficient of Current-2 (Line PL)
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Verified Reflected Coefficient of Current (Line PL)
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Verified Reflected Voltage using Impedance-1 (Line PL)
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Verified Transmitted Coefficient of Voltage using Transmitted Voltage (Line PL)
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Verified Transmitted Voltage using Transmitted Coefficient of Current-2 (Line PL)
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Verified Transmitted Voltage using Transmitted Coefficient of Voltage(Line PL)
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14 More Line With Parallel Loads Calculators
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Created Linear Eccentricity of Ellipse given Area, Eccentricity and Semi Minor Axis
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Created Linear Eccentricity of Ellipse given Eccentricity and Semi Major Axis
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4 More Linear Eccentricity of Ellipse Calculators
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Verified Incident Voltage using Reflected Voltage (Load SC)
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Verified Transmitted Current (Load SC)
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Verified Transmitted Voltage (Load SC)
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1 More Load Is Short Circuited Calculators
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Created Long Diagonal of Parallelogram given Area, Short Diagonal and Acute Angle between Diagonals
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3 More Long Diagonal of Parallelogram Calculators
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Created Long Edge of Parallelogram
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Created Long Edge of Parallelogram given Diagonals and Acute Angle between Diagonals
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Created Long Edge of Parallelogram given Diagonals and Short Edge
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Created Long Edge of Parallelogram given Height to Short Edge and Acute Angle between Sides
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1 More Long Edge of Parallelogram Calculators
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Verified Hoop stress in thin cylindrical vessel given longitudinal stress
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Verified Internal diameter of vessel given Longitudinal stress in cylindrical vessel material
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Verified Internal diameter of vessel given resisting force on thin cylindrical vessel
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Verified Internal pressure of fluid given Longitudinal stress in cylindrical vessel material
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Verified Longitudinal stress in cylindrical vessel material
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Verified Longitudinal stress in material given resisting force on thin cylindrical vessel
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Verified Longitudinal stress in thin cylindrical vessel given hoop stress
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Verified Resisting force on thin cylindrical vessel
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Verified Thickness of cylindrical vessel given resisting force on thin cylindrical vessel
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Verified Thickness of vessel given Longitudinal stress in cylindrical vessel material
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Verified Maximum Inventory Manufacturing Model
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Verified Maximum Stock Out Manufacturing Model
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10 More Manufacturing and Purchase Model Calculators
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Verified Period t1 Manufacturing with Shortage
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Verified Period t2 for Manufacturing Model with Shortage
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Verified Period t3 Manufacturing Model
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Verified Period t4 Manufacturing Model
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4 More Manufacturing Period Calculators
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Verified Max Acceleration of Follower during Outstroke if Outstroke Velocity is known Uniform Acceleration
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Verified Max Acceleration of Follower during Outstroke if Stroke of Follower is known Uniform Acceleration
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Verified Max Acceleration of Follower during Return Stroke if Follower Speed is known Uniform Acceleration
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Verified Max Acceleration of Follower during Return Stroke if Follower Stroke is Known Uniform Acceleration
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Verified Maximum Acceleration of Follower during Outstroke for Cycloidal Motion
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Verified Maximum Acceleration of Follower during Return Stroke for Cycloidal Motion
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Verified Maximum Acceleration of Follower for Circular Arc Cam Contacting with Circular Flank
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Verified Maximum Acceleration of Follower for Tangent Cam with Roller Follower
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Verified Maximum Acceleration of Follower on Outstroke when Follower Moves with SHM
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Verified Maximum Acceleration of Follower on Return Stroke when Follower Moves with SHM
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Verified Maximum Uniform Acceleration of Follower during Outstroke
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Verified Maximum Uniform Acceleration of Follower during Return Stroke
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Verified Max Velocity of Follower for Tangent Cam with Roller Follower
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Verified Maximum Velocity of Follower during Outstroke at Uniform Acceleration
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Verified Maximum Velocity of Follower during Outstroke at Uniform Acceleration given Time of Out Stroke
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Verified Maximum Velocity of Follower during Outstroke for Cycloidal Motion
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Verified Maximum Velocity of Follower during Return Stroke at Uniform Acceleration given Time of Stroke
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Verified Maximum Velocity of Follower during Return Stroke for Cycloidal Motion
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Verified Maximum Velocity of Follower during Return Stroke for Uniform Acceleration
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Verified Maximum Velocity of Follower for Circular Arc Cam Contacting with Circular Flank
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Verified Maximum Velocity of Follower on Outstroke given Time Stroke
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Verified Maximum Velocity of Follower on Outstroke when Follower Moves with SHM
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Verified Maximum Velocity of Follower on Return Stroke when Follower Moves with SHM
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Verified Quality Factor of Maxwell Inductance-Capacitance Bridge
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Verified Unknown Inductance in Maxwell Inductance Bridge
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Verified Unknown Resistance in Maxwell Inductance Bridge
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Verified Mean Radius of Spring Coil
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Verified Mean Radius of Spring Coil given Maximum Shear Stress Induced in Wire
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Verified Mean Radius of Spring Coil of Helical Spring given Stiffness of Spring
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Verified Mean Radius of Spring Roll given Deflection of Spring
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Verified Mean Radius of Spring Rolls given Strain Energy Stored by Spring
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Verified Mean Radius of Spring Rolls given Total Length of Wire of Spring
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Verified Accelerating Weight of Train
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Verified Coefficient of Adhesion
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Verified Crest Speed given Time for Acceleration
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Verified Retardation of Train
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Verified Schedule Speed
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Verified Schedule Time
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Verified Time for Acceleration
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Verified Time for Retardation
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5 More Mechanics of Train Movement Calculators
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Verified Condition for maximum bending stress
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Verified Condition for Maximum Bending Stress given Diameter
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16 More Middle Quarter Rule For Circular Section Calculators
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Created Change in Drain Current
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Created Current at Primary Node of Amplifier
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Created Miller Capacitance
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3 More Miller’s Theorem Calculators
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Verified Modulus of elasticity given circumferential strain
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Verified Modulus of elasticity of shell material given change in length of cylindrical shell
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Verified Modulus of elasticity of thin cylindrical shell given volumetric strain
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Verified Modulus of elasticity of thin cylindrical vessel material given change in diameter
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Verified Modulus of elasticity of vessel given circumferential strain
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Verified Modulus of elasticity of vessel material given internal pressure
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Verified Modulus of elasticity of vessel material given Longitudinal strain
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MOSFET (1)
Created Transistor Aspect Ratio
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8 More MOSFET Calculators
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Verified Angular Deflection of Moving Iron
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Verified Deflecting Torque of Moving Iron
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Verified Natural Frequency of Free Longitudinal Vibrations
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Verified Natural Frequency of Free Longitudinal Vibrations given Static Deflection
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Created Body Effect in NMOS
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Created Current Entering Drain Source at Boundary of Saturation and Triode Region of NMOS
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Created Current Entering Drain Terminal of NMOS
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Created Current Entering Drain Terminal of NMOS given Gate Source Voltage
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Created Current Entering Drain-Source at Saturation Region of NMOS
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Created Current Entering Drain-Source at Saturation Region of NMOS given Effective Voltage
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Created Current Entering Drain-Source in Triode Region of NMOS
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Created Drain Current given NMOS Operates as Voltage-Controlled Current Source
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Created Drain Current when NMOS Operates as Voltage-Controlled Current Source
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Created Electron Drift Velocity of Channel in NMOS Transistor
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Created Fabrication Process Parameter of NMOS
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Created NMOS as Linear Resistance
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Created Output Resistance of Current Source NMOS given Drain Current
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Created Oxide Capacitance of NMOS
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Created Positive Voltage given Channel Length in NMOS
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Created Total Power Dissipated in NMOS
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Created Total Power Supplied in NMOS
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Verified Negative Sequence Current using Negative Sequence Impedance (One Conductor Open)
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Verified Negative Sequence Voltage using Negative Sequence Impedance (One Conductor Open)
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1 More Negative Sequence Calculators
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Verified Negative Sequence Current using A-Phase Current(Two Conductor Open)
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Verified Negative Sequence Current using Negative Sequence Voltage (Two Conductor Open)
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Verified Negative Sequence Potential Difference (Two Conductor Open)
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Verified Negative Sequence Voltage using Negative Sequence Current (Two Conductor Open)
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1 More Negative Sequence Calculators
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Verified Losses in Nominal Pi Method
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Verified Receiving End Current using Transmission Efficiency in Nominal Pi Method
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Verified Receiving End Voltage using Voltage Regulation in Nominal Pi Method
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Verified Sending End Current using Transmission Efficiency in Nominal Pi Method
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Verified Sending End Power using Transmission Efficiency in Nominal Pi Method
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Verified Sending End Voltage using Transmission Efficiency in Nominal Pi Method
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Verified Sending End Voltage using Voltage Regulation in Nominal Pi Method
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Verified Transmission Efficiency (Nominal Pi Method)
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Verified Voltage Regulation (Nominal Pi Method)
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11 More Nominal Pi-Method in Medium Line Calculators
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Verified A-Parameter for Reciprocal Network in Nominal T Method
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Verified Capacitive Voltage in Nominal T Method
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Verified Impedance using D Parameter in Nominal T Method
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Verified Losses in Nominal T Method
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Verified Sending End Current in Nominal T Method
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Verified Sending End Current using Losses in Nominal T Method
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Verified Sending End Voltage using Capacitive Voltage in Nominal T Method
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Verified Transmission Efficiency in Nominal T Method
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Verified Voltage Regulation using Nominal T Method
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10 More Nominal T-Method in Medium Line Calculators
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Verified Normal Force for Shoe Brake if Line of Action of Tangential Force Passes above Fulcrum (Anti Clock)
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Verified Normal Force for Shoe Brake if Line of Action of Tangential Force Passes above Fulcrum (Clockwise)
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Verified Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Anti Clock)
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Verified Normal Force for Shoe Brake if Line of Action of Tangential Force Passes below Fulcrum (Clockwise)
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Verified Normal Force Pressing Brake Block on Wheel for Shoe Brake
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Created Obtuse Angle between Diagonals of Rectangle
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13 More Obtuse Angle between Diagonals of Rectangle Calculators
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Verified B-Phase Current (One Conductor Open)
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Verified C-Phase Current (One Conductor Open)
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4 More One Conductor Open Calculators
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Verified Crippling Load given Moment of Section if One End of Column is Fixed and Other is Free
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Verified Crippling Load if One End of Column is Fixed and Other is Free
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Verified Deflection at Free End given Moment of Section if One End of Column is Fixed and Other is Free
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Verified Deflection of Section given Moment of Section if One End of Column is Fixed and Other is Free
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Verified Length of Column given Crippling Load if One End of Column is Fixed and Other is Free
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Verified Modulus of Elasticity given Crippling Load if One End of Column is Fixed and Other is Free
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Verified Moment of Inertia given Crippling Load if One End of Column is Fixed and Other is Free
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Verified Moment of Section due to Crippling Load if One End of Column is Fixed and Other is Free
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Verified Crippling Load given Moment at Section if One End of Column is Fixed and Other is Hinged
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Verified Crippling Load if One End of Column is Fixed and Other is Hinged
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Verified Deflection at Section given Moment at Section if One End of Column is Fixed and Other is Hinged
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Verified Horizontal Reaction given Moment at Section if One End of Column is Fixed and Other is Hinged
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Verified Length of Column given Crippling Load if One End of Column is Fixed and Other is Hinged
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Verified Length of Column given Moment at Section if One End of Column is Fixed and Other is Hinged
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Verified Modulus of Elasticity given Crippling Load if One End of Column is Fixed and Other is Hinged
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Verified Moment at Section if One End of Column is Fixed and Other is Hinged
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Verified Moment of Inertia given Crippling Load if One End of Column is Fixed and Other is Hinged
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Created Optical Path Difference
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Created Optical Path Difference given Fringe Width
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Verified Unknown Frequency using Lissajous Figures
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21 More Oscilloscope Calculators
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Created Path Difference for Constructive Interference in YDSE
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Created Path Difference for Destructive Interference in YDSE
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Created Path Difference for Maxima in YDSE
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Created Path Difference for Minima in YDSE
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Created Path Difference in YDSE given Distance between Coherent Sources
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Created Path Difference in Young's Double-Slit Experiment
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Created Body Effect in PMOS
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Created Drain Current in Saturation Region of PMOS Transistor
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Created Drain Current in Saturation Region of PMOS Transistor given Vov
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Created Drain Current in Triode Region of PMOS Transistor
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Created Drain Current in Triode Region of PMOS Transistor given Vsd
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Created Overall Drain Current of PMOS Transistor
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Created Overdrive Voltage of PMOS
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Created Process Transconductance Parameter of PMOS
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7 More P-Channel Enhancement Calculators
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Verified Voltage in Ryall Crest Voltmeter
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8 More Pending Calculators
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Created Perimeter of Circular Ring
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8 More Perimeter of Circular Ring Calculators
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Created Perimeter of Circular Sector
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2 More Perimeter of Circular Sector Calculators
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Created Perimeter of Circular Segment given Central Angle
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1 More Perimeter of Circular Segment Calculators
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Created Perimeter of Rectangle given Area and Length
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Created Perimeter of Rectangle given Breadth and Circumradius
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Created Perimeter of Rectangle given Breadth and Diameter of Circumcircle
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Created Perimeter of Rectangle given Length and Circumradius
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Created Perimeter of Rectangle given Length and Diameter of Circumcircle
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31 More Perimeter of Rectangle Calculators
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Created Perimeter of Square given Circumradius
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Created Perimeter of Square given Diameter of Circumcircle
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Created Perimeter of Square given Diameter of Incircle
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Created Perimeter of Square given Inradius
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3 More Perimeter of Square Calculators
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Verified Angle of deflection of PMMC
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Verified Deflecting torque of PMMC instrument
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Verified Photon's Energy using Frequency
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7 More Photoelectric Effect Calculators
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Verified Deflection of Center of Leaf Spring in Pickering Governor
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Verified Deflection of Center of Leaf Spring in Pickering Governor given Value of Load
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Verified Moment of Inertia of Pickering Governor Cross-Section about Neutral Axis
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Verified Poisson's ratio for thin cylindrical vessel given change in diameter
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Verified Poisson's ratio given change in length of cylindrical shell
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Verified Poisson's ratio given circumferential strain
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Verified Poisson's ratio given circumferential strain and hoop stress
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Verified Poisson's ratio given Longitudinal strain
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Verified Poisson's ratio given longitudinal strain and internal fluid pressure in vessel
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Verified Poisson's ratio given volumetric strain of thin cylindrical shell
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Verified Diameter of Solid Shaft with known Polar Modulus
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Verified Inner diameter of Hollow Shaft using Polar Modulus
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Verified Polar Modulus
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Verified Polar Modulus of Hollow Shaft
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Verified Polar Modulus of Solid Shaft
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Verified Polar Moment of Inertia of Hollow Shaft
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Verified Polar Moment of Inertia of Solid Shaft
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Verified Polar Moment of Inertia using Polar Modulus
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Verified Radius of Shaft using Polar Modulus
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Verified Polar Moment of Inertia of Shaft for Hollow Shaft for Torsion Dynamometer
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Verified Polar Moment of Inertia of Shaft for Solid Shaft for Torsion Dynamometer
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Verified Polar Moment of Inertia of Shaft for Torsion Dynamometer
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Verified Coefficient of Insensitiveness for Porter Governor if Angle Made by Upper and Lower Arm are Equal
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Verified Coefficient of Insensitiveness for Porter Governor if Angle Made by Upper and Lower Arm Aren't Equal
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Verified Coefficient of Insensitiveness for Porter Governor when Lower Arm is Not Attached on Governor
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Verified Coefficient of Insensitiveness when All Arms of Porter Governor are Attached to Governor Axis
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Verified Controlling Force for Porter Governor
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Verified Controlling Force for Porter Governor given Radius of Rotation of Mid Position
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Verified Lift of Sleeve for Porter Governor if Angle Made by Upper and Lower Arms are Equal
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Verified Lift of Sleeve for Porter Governor if Angle Made by Upper and Lower Arms are Not Equal
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Verified Net Increase in Speed of Porter Governor
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Verified Power of Porter Governor if Angle Made by Upper and Lower Arms are Equal
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Verified Power of Porter Governor if Angle Made by Upper and Lower Arms are Not Equal
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4 More Porter Governor Calculators
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Verified Positive Sequence Current using Positive Sequence Voltage (One Conductor Open)
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Verified Positive Sequence Current using Zero Sequence Impedance (One Conductor Open)
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Verified Positive Sequence Impedance using Positive Sequence Voltage (One Conductor Open)
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2 More Positive Sequence Calculators
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Verified Positive Sequence Current (Two Conductor Open)
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Verified Positive Sequence Current using A-Phase EMF (Two Conductor Open)
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Verified Positive Sequence Current using Positive Sequence Voltage (Two Conductor Open)
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Verified Positive Sequence Impedance using A-Phase EMF (Two Conductor Open)
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Verified Positive Sequence Impedance using Positive Sequence Voltage (Two Conductor Open)
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Verified Positive Sequence Potential Difference (Two Conductor Open)
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Verified Positive Sequence Voltage using Positive Sequence Current (Two Conductor Open)
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Verified Energy Available due to Reduction in Speed
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Verified Energy Available during Regeneration
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Verified Energy Consumption at Axle of Train
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Verified Energy Consumption for Overcoming Gradient and Tracking Resistance
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Verified Energy Consumption for Run
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Verified Maximum Power Output from Driving Axle
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Verified Power Output of Motor using Efficiency of Gear Transmission
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Verified Specific Energy Consumption
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Verified Receiving End Angle using Losses (STL)
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7 More Power & Phase Difference Calculators
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Verified Power Transmitted using Line Losses(Two-Wire Mid-Point Earthed)
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2 More Power & Power Factor Calculators
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Verified Power Transmitted per Phase (DC 3-Wire)
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Verified Power Transmitted using Constant(DC 3-Wire)
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Verified Power Transmitted using Line Losses(DC 3-Wire)
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Verified Power Transmitted using Load Current(DC 3-Wire)
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Verified Power Transmitted using Volume of Conductor Material (DC 3-Wire)
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1 More Power & Power Factor Calculators
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Verified Power Transmitted(2-Phase 4-Wire OS)
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6 More Power & Power Factor Calculators
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Verified Power Transmitted(Two-Phase Three-Wire OS)
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9 More Power & Power Factor Calculators
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Verified Power Transmitted using Area of X-Section(3-Phase 4-Wire OS)
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9 More Power & Power Factor Calculators