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Calculators Created by Payal Priya
Payal Priya
Birsa Institute of Technology
(BIT)
,
Sindri
984
Formulas Created
2004
Formulas Verified
372
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 984 and verified 2004 calculators across 372 different categories till date.
High-Frequency Response of the MOS Cascode Amplifier
(10)
Created
3-dB frequency in design insight and trade-off
Go
Created
3-dB frequency of the cascode amplifier
Go
Created
Drain resistance in the cascode amplifier
Go
Created
Effective time-constant in design insight and trade-off
Go
Created
Effective time-constant of the cascode amplifier
Go
Created
Effective time-constant of the MOS cascode amplifier
Go
Created
Gate to drain resistance in the cascode amplifier
Go
Created
Output resistance of the cascode amplifier
Go
Created
Signal current in the base
Go
Created
Unity gain frequency of the MOS cascode amplifier
Go
The CS Amplifier
(10)
Created
3-dB frequency from the Method of Short-Circuit Time Constants
Go
Created
3-dB frequency of the CS amplifier
Go
Created
3-dB frequency of the CS amplifier without dominant poles
Go
Created
Frequency of zero transmission of CS Amplifier
Go
Created
Mid-band gain of the CS amplifier
Go
Created
Overall low-frequency gain function of the amplifier
Go
Created
Pole frequency of the bypass capacitor in the CS Amplifier
Go
Created
Pole frequency of the CS Amplifier
Go
Created
Signal voltage of the CS amplifier
Go
Created
Transmission zero on the negative real axis of the s plane
Go
2 Wattmeter Method
(3)
Verified
Power in Wattmeter 1
Go
Verified
Power in Wattmeter 2
Go
Verified
Total Power in terms of phi angle
Go
3 Wattmeter Method
(1)
Verified
Total Power for a Three Phase Wattmeter
Go
ABCD Parameter
(4)
Verified
A Parameter For Reciprocal Network (Nominal T-method)
Go
Verified
Admittance Using C Parameter (Nominal T-method)
Go
Verified
D Parameter For Symmetric Network (Nominal T-method)
Go
Verified
Impedance Using D Parameter (Nominal T-method)
Go
12 More ABCD Parameter Calculators
Go
ABCD Parameter
(2)
Verified
A Parameter For Symmetric Network (Nominal pi-method)
Go
Verified
C Parameter For Reciprocal Network (Nominal pi-method)
Go
14 More ABCD Parameter Calculators
Go
ABCD Parameter
(1)
Verified
Impedance Using B Parameter (STL)
Go
2 More ABCD Parameter Calculators
Go
AC Potentiometer
(2)
Verified
Magnitude of Voltage
Go
Verified
Phase Angle
Go
Acceleration Of The Follower
(20)
Verified
Acceleration of the follower after time t (Cycloidal motion)
Go
Verified
Acceleration of the follower for circular arc cam(contact on the circular flank)
Go
Verified
Acceleration of the follower for tangent cam with roller follower(contact with straight flanks)
Go
Verified
Acceleration of the follower of tangent cam with roller follower(contact with nose)
Go
Verified
Centripetal acceleration of the point P on circumference
Go
Verified
Centripetal acceleration of the point P on circumference when the follower moves with the SHM
Go
Verified
Max acceleration of follower during outstroke if outstroke velocity is known(uniform acceleration)
Go
Verified
Max acceleration of follower during outstroke if stroke of follower is known(uniform acceleration)
Go
Verified
Max acceleration of follower during return stroke if follower speed is known(uniform acceleration)
Go
Verified
Max acceleration of follower during return stroke if follower stroke is known(uniform acceleration)
Go
Verified
Max acceleration of follower for tangent cam with roller follower(contact with straight flanks)
Go
Verified
Maximum acceleration of the follower during outstroke(uniform acceleration)
Go
Verified
Maximum acceleration of the follower during return stroke (Cycloidal motion)
Go
Verified
Maximum acceleration of the follower during return stroke(uniform acceleration)
Go
Verified
Maximum acceleration of the follower during the outstroke (Cycloidal motion)
Go
Verified
Maximum acceleration of the follower for the circular arc cam(contact on the circular flank)
Go
Verified
Maximum acceleration of the follower on the outstroke when the follower moves with SHM
Go
Verified
Maximum acceleration of the follower on the return stroke when the follower moves with the SHM
Go
Verified
Min acceleration of follower for tangent cam with roller follower(contact with straight flanks)
Go
Verified
Minimum acceleration of the follower for the circular arc cam(contact on the circular flank)
Go
Allowable Stress
(9)
Verified
Allowable crushing stress of rivet material in terms of crushing strength for double rivet
Go
Verified
Allowable crushing stress of rivet material in terms of crushing strength for 'n' number of rivets
Go
Verified
Allowable crushing stress of rivet material in terms of crushing strength for single rivet
Go
Verified
Allowable crushing stress of rivet material in terms of crushing strength for triple rivet
Go
Verified
Allowable shear stress of rivet material in terms of shearing strength if rivet is in double shear
Go
Verified
Allowable shear stress of rivet material in terms of shearing strength if rivet is in single shear
Go
Verified
Allowable tensile stress in plate in terms of strength of solid plate per pitch length
Go
Verified
Allowable tensile stress in plate in terms of tearing strength of rivet
Go
Verified
Allowable tensile stress in plates in terms of efficiency of riveted joint
Go
Amplification factor
(23)
Created
3-dB frequency of the source-follower
Go
Created
3-dB frequency with no dominant pole
Go
Created
Closed-loop gain as a function of the ideal value
Go
Created
Closed-loop gain when Aβ<<1
Go
Created
Error Signal
Go
Created
Feedback signal of the feedback amplifier
Go
Created
Feedback signal of the feedback amplifier in terms of the output signal
Go
Created
Feedback signal when Aβ >> 1
Go
Created
Gain-with-feedback of the feedback amplifier
Go
Created
Gain-with-feedback when Aβ<<1
Go
Created
Gate voltage of the source-follower case
Go
Created
Input signal to the basic amplifier
Go
Created
Mid band gain of the source-follower transfer function
Go
Created
Midband gain of the emitter-follower
Go
Created
Returned Signal
Go
Created
Returned signal of the feedback amplifier
Go
Created
Signal voltage in the high-frequency response of the source and emitter follower
Go
Created
Signal voltage of the emitter-follower case
Go
Created
Signal voltage of the source follower
Go
Created
Signal voltage of the source follower in terms of capacitance
Go
Created
Test Signal
Go
Created
Transition frequency
Go
Created
Transition frequency of the source-follower transfer function
Go
Amplification factor
(15)
Created
Closed-loop voltage gain in the ideal case of the Feedback Voltage Amplifiers
Go
Created
Closed-loop voltage gain of the Feedback Voltage Amplifiers
Go
Created
Feedback voltage of the feedback amplifier
Go
Created
Input current of the feedback amplifier in terms of amount of feedback
Go
Created
Input resistance in the ideal case of Feedback Voltage Amplifiers
Go
Created
Input resistance of feedback amplifier
Go
Created
Input voltage of Feedback Voltage Amplifiers
Go
Created
Input voltage of the feedback amplifier
Go
Created
Open-loop input resistance
Go
Created
Open-loop input resistance of the feedback voltage amplifier
Go
Created
Output resistance of feedback voltage amplifier in terms of resistance
Go
Created
Output resistance of the feedback amplifier
Go
Created
Output resistance of the feedback voltage amplifier
Go
Created
Output resistance of the feedback voltage amplifier in terms of amount of feedback
Go
Created
Test current of the feedback amplifier
Go
Amplification factor
(14)
Created
Amplification factor
Go
Created
Amplification factor of BJT
Go
Created
Amplification factor of MOSFET
Go
Created
Amplification factor of MOSFET in terms of device parameter
Go
Created
Instantaneous drain current at the drain terminal
Go
Created
Instantaneous drain current at the drain terminal when transconductance parameter is given
Go
Created
Instantaneous drain current in terms of voltage between drain and source
Go
Created
Relation between Small-signal input resistance between base and emitter and emitter resistance
Go
Created
Signal current in the emitter in terms of the input signal
Go
Created
Single component of drain voltage in terms of transconductance
Go
Created
Single component of the drain voltage
Go
Created
Total instantaneous drain voltage
Go
Created
Total instantaneous drain voltage in terms of drain current
Go
Created
Total instantaneous gate-to-source voltage
Go
Amplification factor
(14)
Created
Current transfer ratio of IC Amplifier
Go
Created
Current transfer ratio of IC Amplifier in terms of β
Go
Created
Current transfer ratio of the mirror with base-current compensation
Go
Created
Input resistance in small-signal operation of current mirrors
Go
Created
Output current in terms of the reference current
Go
Created
Output current of a BJT mirror
Go
Created
Output current of IC amplifier in terms of β
Go
Created
Output resistance of the BJT Mirror
Go
Created
Output resistance of the simple current BJT
Go
Created
Output resistance of the simple current BJT in terms of early voltage
Go
Created
Reference current of BJT Mirror in terms of the collector current
Go
Created
Reference current of the BJT current mirror
Go
Created
Reference current of the IC amplifier
Go
Created
Voltage gain of small-signal operation of current mirrors in terms of aspect ratio
Go
Amplifiers
(20)
Verified
Amplifier Power Efficiency
Go
Verified
Amplifier Transmission
Go
Verified
differential gain for the instrumentation amplifer
Go
Verified
Input Bias Current
Go
Verified
Integrator Frequency of the Inverting Integrator
Go
Verified
Magnitude Response |T(jω)| of STC network for high-pass filter
Go
Verified
Open circuit voltage gain when open circuit transresistance is given
Go
Verified
Open-Circuit Transresistance
Go
Verified
Open-Circuit voltage gain of an amplifier when short-circuit transconductance is given
Go
Verified
Output voltage for Instrumentation Amplifier
Go
Verified
Overall voltage gain in an amplifier
Go
Verified
Phase Response ∠T(jω) of STC networks for low-pass filter
Go
Verified
Power gain in terms of voltage gain and current gain
Go
Verified
Time constant of STC
Go
Created
Total power supplied in BJT
Go
Verified
Transfer Function (for physical frequencies) of STC networks for low pass filter
Go
Verified
Transfer function of STC networks for low-pass filters
Go
Verified
Transfer function when physical frequencies are given
Go
Verified
Voltage across input terminal in an amplifier
Go
Verified
Voltage gain when resistance is given
Go
2 More Amplifiers Calculators
Go
An Emitter Follower
(6)
Created
Input resistance of the base of the emitter-follower
Go
Created
Input resistance of the emitter-follower
Go
Created
Input voltage of the emitter-follower
Go
Created
Output resistance of the emitter-follower
Go
Created
Output voltage of the emitter-follower
Go
Created
Overall voltage gain of the emitter-follower
Go
Analog Electronics
(11)
Verified
Average Current for Full-wave Rectifier
Go
Verified
Average Current for Half-wave Rectifier
Go
Verified
Average Voltage for Full-wave Rectifier
Go
Verified
Average Voltage for Half-wave Rectifier
Go
Verified
Form Factor
Go
Verified
Ripple Factor
Go
Verified
RMS Current for Halfwave Rectifier
Go
Verified
RMS Current for the Full-wave Rectifie
Go
Verified
RMS Voltage for half-wave Rectifier
Go
Verified
RMS Voltage for the Full-wave Rectifier
Go
Verified
Transformer Utilization Factor
Go
Analysis Of Compound Weld
(14)
Verified
Allowable tensile stress in terms of the load carried by a single fillet lap weld
Go
Verified
Allowable tensile stress in terms of total load carried by plates in a compound weld
Go
Verified
Length of a single fillet lap weld in terms of total load carried by plates in a compound weld
Go
Verified
Length of parallel fillet weld in terms of load carried by parallel fillet weld
Go
Verified
Length of parallel fillet weld in terms of total load carried by plates in a compound weld
Go
Verified
Length of single fillet lap weld in terms of load carried by single fillet lap weld
Go
Verified
Load carried by a single fillet lap weld
Go
Verified
Load carried by parallel fillet weld
Go
Verified
Maximum shear stress in terms of load carried by parallel fillet weld
Go
Verified
Maximum shear stress in terms of total load carried by plates in a compound weld
Go
Verified
Thickness of plates in terms of load carried by a parallel fillet weld
Go
Verified
Thickness of plates in terms of load carried by single fillet lap weld
Go
Verified
Thickness of plates in terms of total load carried by plates in a compound weld
Go
Verified
Total load carried by plates in a compound weld
Go
Analysis Of Unsymmetrical Welded Sections Which Are Loaded Axially
(20)
Verified
Area of the unsymmetrical weld
Go
Verified
Area of the unsymmetrical weld in terms of the throat thickness
Go
Verified
Area of weld in terms of axial load on weld
Go
Verified
Axial load on the angle
Go
Verified
Axial load on the angle in terms of resistance of the bottom and top weld
Go
Verified
Axial load on the weld
Go
Verified
Axial load on weld in terms of shear stress
Go
Verified
Shear stress in terms of axial load on the weld
Go
Verified
Shear stress in terms of axial load on weld
Go
Verified
Thickness of plate in terms of area of the unsymmetrical weld
Go
Verified
Thickness of plate in terms of axial load on the weld
Go
Verified
Throat thickness in terms of area of the unsymmetrical weld
Go
Verified
Total length of weld if length of top and bottom weld are known
Go
Verified
Total length of weld in terms of area of the unsymmetrical weld
Go
Verified
Total length of weld in terms of length of bottom weld
Go
Verified
Total length of weld in terms of length of top weld
Go
Verified
Total length of weld in terms of resistance of top weld
Go
Verified
Total length of weld in terms of the resistance of the bottom weld
Go
Verified
Total resistance in terms of resistance of top weld
Go
Verified
Total resistance in terms of the resistance of the bottom weld
Go
Anderson's Bridge
(3)
Verified
Value of I
_{c}
Go
Verified
Value of Unknown Inductance of Anderson's Bridge
Go
Verified
Value of Unknown Resistance of Anderson's Bridge
Go
Angle of Circle
(1)
Created
Inscribed angle of the circle when the central angle of the circle is given
Go
15 More Angle of Circle Calculators
Go
Angle of Rectangle
(3)
Created
Angle between the diagonal and rectangle side in terms of the angle between the diagonals
Go
Created
Angle between the Rectangle Diagonals in terms of Area and Rectangle Diagonal
Go
Created
Angle between the rectangle diagonals when angle between the diagonal and rectangle side is given
Go
Angular Velocity Of Disc
(8)
Verified
Angular velocity of disc in terms of circumferential stress at the center of solid disc
Go
Verified
Angular velocity of disc in terms of circumferential stress in a solid disc
Go
Verified
Angular velocity of disc in terms of constant at boundary condition for circular disc
Go
Verified
Angular velocity of disc in terms of maximum radial stress in solid disc
Go
Verified
Angular velocity of disc in terms of radial stress at the center of solid disc
Go
Verified
Angular velocity of disc in terms of radial stress in a solid disc and outer radius of disc
Go
Verified
Angular velocity of the disc in terms of radial stress in a solid disc
Go
Verified
Disc's angular velocity in terms of maximum circumferential stress in the solid disc
Go
1 More Angular Velocity Of Disc Calculators
Go
Antenna & Wave Propogation
(28)
Verified
Absolute Temp Of Resistor
Go
Verified
Antenna Current
Go
Verified
Antenna Efficiency
Go
Verified
Critical Freq Ionosphere
Go
Verified
Distance b/w Transmitting and Receiving point
Go
Verified
Duct Height
Go
Verified
Effective Aperture Of antenna
Go
Verified
Height Of Layer
Go
Verified
Height Of Receiving Antenna
Go
Verified
Height Of Transmitting Antenna
Go
Verified
Ionic Density
Go
Verified
Isotropic Radiator
Go
Verified
Length Of Binomial Array
Go
Verified
Max Duct Wavelength
Go
Verified
Maximum Usable Frequency
Go
Verified
Noise Temperature Of Antenna
Go
Verified
Normal Of Reflecting Plane
Go
Verified
Ohmic Resistance
Go
Verified
Parallel Of Reflecting Plane
Go
Verified
Power Density Of antenna
Go
Verified
Power Per Unit Bandwidth
Go
Verified
Propagation Distance
Go
Verified
Radiation Resistance
Go
Verified
Refractive Index Of Ionosphere
Go
Verified
Strength of Ground Wave
Go
Verified
Total Antenna Resistance
Go
Verified
Total Input Power
Go
Verified
Wavelength Of Plane
Go
6 More Antenna & Wave Propogation Calculators
Go
Arc of a Circle
(1)
Created
Arc length of the circle when central angle and radius are given
Go
14 More Arc of a Circle Calculators
Go
Area of Fillet Weld
(8)
Verified
Area of double fillet weld in terms of tensile strength of double fillet lap
Go
Verified
Area of fillet weld in terms of thickness of plate(double fillet lap joint)
Go
Verified
Area of fillet weld in terms of thickness of plate(single fillet lap joint)
Go
Verified
Area of fillet weld in terms of throat thickness(double fillet lap joint)
Go
Verified
Area of fillet weld in terms of throat thickness(single fillet lap joint)
Go
Verified
Area of parallel fillet weld in terms of thickness of plate
Go
Verified
Area of parallel fillet weld in terms of throat thickness
Go
Verified
Area of single fillet weld in terms of tensile strength of single fillet lap
Go
Area of rectangle
(8)
Created
Area of rectangle in terms of sine of the acute angle between the diagonals and the diagonal of a rectangle
Go
Created
Area of rectangle when breadth and radius of circumscribed circle are given
Go
Created
Area of rectangle when diameter of circumscribed circle and length are given
Go
Created
Area of rectangle when length and radius of circumscribed circle are given
Go
Created
Area of rectangle when perimeter and breadth are given
Go
Created
Area of rectangle when perimeter and length are given
Go
Created
Area of rectangle when radius of circumscribed circle and length are given
Go
Created
Area of the rectangle when the diameter of the circumscribed circle and breadth are given
Go
5 More Area of rectangle Calculators
Go
Area of the square
(5)
Created
Area of the Square when Circumradius is Given
Go
Created
Area of the square when length of segment is given
Go
Created
Area of the Square when the Diameter of the Circumscribed Circle is Given
Go
Created
Area of the square when the diameter of the inscribed circle is given
Go
Created
Area of the Square when the Radius of the Inscribed Circle is Given
Go
Area Of X-Section
(1)
Verified
Resistivity Using Area Of X-section(Two-Wire One Conductor Earthed)
Go
4 More Area Of X-Section Calculators
Go
Area Of X-Section
(2)
Verified
Length Of Wire Using Area Of X-section(1-phase 2-wire OS)
Go
Verified
Resistivity Using Area Of X-section(1-phase 2-wire OS)
Go
6 More Area Of X-Section Calculators
Go
Area Of X-Section
(1)
Verified
Length Of Wire Using Area Of X-section(1-Phase 2-Wire Mid-point Earthed OS)
Go
8 More Area Of X-Section Calculators
Go
Area Of X-Section
(2)
Verified
Length Of Wire Using Area Of X-section(3-phase 4-wire OS)
Go
Verified
Power Transmitted Using Area Of X-section(3-phase 4-wire OS)
Go
6 More Area Of X-Section Calculators
Go
Area Of X-Section
(5)
Verified
Length Of Wire Using Area Of X-section(3-phase 3-wire OS)
Go
Verified
Line Losses Using Area Of X-section(3-phase 3-wire OS)
Go
Verified
Maximum Voltage Using Area Of X-section(3-phase 3-wire OS)
Go
Verified
Power Transmitted Using Area Of X-section(3-phase 3-wire OS)
Go
Verified
Resistivity Using Area Of X-section(3-phase 3-wire OS)
Go
3 More Area Of X-Section Calculators
Go
Area Of X-Section
(3)
Verified
Maximum Voltage Using Area Of X-Section (1-Phase 2-Wire US)
Go
Verified
Power Transmitted Using Area Of X-Section (1-Phase 2-Wire US)
Go
Verified
Resistivity Using Area Of X-Section (1-Phase 2-Wire US)
Go
6 More Area Of X-Section Calculators
Go
Area Of X-Section
(1)
Verified
Load Current Using Area Of X-section(DC 3-wire)
Go
6 More Area Of X-Section Calculators
Go
Area Of X-Section
(4)
Verified
Angle Using Area Of X-Section (1-phase 2-wire Mid-point Earthed)
Go
Verified
Length Using Area Of X-Section (1-phase 2-wire Mid-point Earthed)
Go
Verified
Power Factor Using Area Of X-Section (1-phase 2-wire Mid-point Earthed)
Go
Verified
Resistivity Using Area Of X-Section (1-phase 2-wire Mid-point Earthed)
Go
5 More Area Of X-Section Calculators
Go
Area Of X-Section
(2)
Verified
Line Losses Using Area Of X-Section(2-phase 3-wire OS)
Go
Verified
Maximum Voltage Using Area Of X-Section(2-phase 3-wire OS)
Go
7 More Area Of X-Section Calculators
Go
Area Of X-Section
(2)
Verified
Line Losses Using Area Of X-Section(2-phase 4-wire OS)
Go
Verified
Maximum Voltage Using Area Of X-section(2-phase 4-wire OS)
Go
7 More Area Of X-Section Calculators
Go
Astronomical Telescope
(2)
Created
Length of an astronomical telescope
Go
Created
Magnifying power of an astronomical telescope when image is formed at infinity
Go
2 More Astronomical Telescope Calculators
Go
Axial Load
(6)
Verified
Axial load of spring if deflection and stiffness of spring are given
Go
Verified
Axial load on spring in terms of deflection of spring
Go
Verified
Axial load on spring in terms of strain energy stored by spring
Go
Verified
Axial load on spring in terms of work done on spring
Go
Verified
Axial loading on spring
Go
Verified
Axial loading on spring in terms of maximum shear stress induced in the wire
Go
Balancing of Rotating Masses
(2)
Verified
Angle made by resultant force with horizontal
Go
Verified
Resultant centrifugal force
Go
Basic Circuits
(6)
Created
3-dB frequency in terms of the dominant pole frequency
Go
Created
Closed-loop gain
Go
Created
Closed-loop gain of the feedback amplifier
Go
Created
Gain–bandwidth product
Go
Created
Input to the basic amplifier
Go
Created
Unity-gain frequency of the source-follower case
Go
4 More Basic Circuits Calculators
Go
Basic Configurations
(14)
Created
Input resistance
Go
Created
Input resistance of the amplifier
Go
Created
Input resistance of the transistor amplifier
Go
Created
Input resistance when R
_{e}
is given
Go
Created
Input Voltage in terms of the signal voltage
Go
Created
Output voltage gain in terms of transconductance
Go
Created
Overall voltage gain
Go
Created
Overall voltage gain in terms of resistance
Go
Created
Overall voltage gain in terms of the signal source
Go
Created
Overall voltage gain in terms of transconductance
Go
Created
Overall voltage gain when load resistance is connected at the amplifier
Go
Created
Small signal input voltage in terms of the transconductance
Go
Created
Small signal voltage in terms of resistance
Go
Created
Voltage between gate and source
Go
1 More Basic Configurations Calculators
Go
Basic Electronics
(23)
Created
Capacitance of the varactor diode
Go
Created
Conductivity in metals in terms of number of electrons
Go
Created
Conductivity in semiconductors in terms of mobility of electrons and holes
Go
Created
Conductivity of extrinsic semiconductor for p-type
Go
Created
Conductivity of extrinsic semiconductors for n-type
Go
Created
Current in Zener diode(Zener current)
Go
Created
Cut-off frequency of varactor diode
Go
Created
Diode Equation in terms of saturation current
Go
Created
Einstein's Equation
Go
Created
Electron diffusion length in terms of relaxation time
Go
Created
Electrostatic deflection sensitivity in terms of distance between deflecting plates
Go
Created
Ideal Diode Equation
Go
Created
Intrinsic concentration
Go
Created
Magnetic deflection sensitivity of electron
Go
Created
Majority carrier concentration in a Semiconductor
Go
Created
Mobility of a charge carriers
Go
Created
Non-Ideal Diode Equation
Go
Created
Quality factor of the varactor diode
Go
Created
Self-resonance of the varactor diode
Go
Created
Thermal voltage of Diode equation
Go
Created
Thermal Voltage or voltage equivalent of temperature
Go
Created
Velocity due to voltage
Go
Verified
Zener Resistance
Go
Basic gain cell in an IC amplifier
(11)
Created
Input resistance of the active-loaded CE amplifier
Go
Created
Intrinsic gain of the BJT
Go
Created
Output resistance of the transistor at an intrinsic gain
Go
Created
Output voltage gain of the active-loaded CE amplifier
Go
Created
Output voltage gain of the active-loaded CS Amplifier
Go
Created
Output voltage gain of the IC Amplifier
Go
Created
Output voltage gain of the IC Amplifier in terms of drain current
Go
Created
Output voltage gain of the IC Amplifier in terms of length of the channel
Go
Created
Transconductance of the BJT at an intrinsic gain
Go
Created
Voltage gain of amplifier with current-source load in terms of finite output resistance
Go
Created
Voltage gain of the amplifier with the current-source load
Go
Basic Principles
(22)
Created
Bias voltage of the transistor
Go
Created
Collector current in active region when transistor acts as an amplifier
Go
Created
DC Bias Voltage
Go
Created
Drain current in the load line
Go
Created
Drain current when transistor acts as an amplifier
Go
Created
Maximum voltage gain at the bias point
Go
Created
Maximum voltage gain when all voltages are given
Go
Created
Output Voltage of BJT Amplifier
Go
Created
Output Voltage of the voltage amplifier
Go
Created
Output voltage when MOSFET acts as an amplifier
Go
Created
Output voltage when the transistor is biased
Go
Created
Overdrive voltage when MOSFET acts as an amplifier
Go
Created
Overdrive voltage when MOSFET acts as an amplifier in terms of load resistance
Go
Created
Voltage across collector-emitter of BJT Amplifier
Go
Created
Voltage across collector-emitter when MOSFET acts as an amplifier
Go
Created
Voltage across gas oxide when MOSFET acts as an amplifier
Go
Created
Voltage gain at bias point in terms of overdrive voltage
Go
Created
Voltage gain at the bias point
Go
Created
Voltage gain in terms of drain current
Go
Created
Voltage gain in terms of drain voltage
Go
Created
Voltage gain when all voltages are given
Go
Created
Voltage gain when the collector current is given
Go
Bending Moment
(6)
Verified
Bending moment at the center in terms of point load acting at the center of the spring load
Go
Verified
Bending moment at the center of the leaf spring
Go
Verified
Bending moment on each plate in terms of the total resisting moment by n plates
Go
Verified
Bending moment on single plate
Go
Verified
Maximum bending moment developed in the plate in terms of bending moment on single plate
Go
Verified
Maximum bending moment developed in the plate in terms of total resisting moment by n plates
Go
Binary Weighted
(1)
Verified
V
_{o}
of Binary Weighted Type DAC
Go
Bottom Weld
(24)
Verified
Distance of bottom weld from gravity axis in terms of length of bottom weld and total length of weld
Go
Verified
Distance of bottom weld from gravity axis in terms of length of top weld and total length of weld
Go
Verified
Distance of bottom weld from gravity axis in terms of moment and length of the bottom weld
Go
Verified
Distance of bottom weld from gravity axis in terms of moment of the bottom weld about gravity axis
Go
Verified
Distance of bottom weld from gravity axis in terms of resistance of bottom weld
Go
Verified
Distance of bottom weld from gravity axis in terms of resistance of bottom weld & total weld length
Go
Verified
Distance of bottom weld from gravity axis in terms of resistance of top weld
Go
Verified
Distance of bottom weld from gravity axis in terms of resistance of top weld and total weld length
Go
Verified
Distance of the bottom weld from the gravity axis in terms of the Length of the top weld
Go
Verified
Length of bottom weld
Go
Verified
Length of bottom weld in terms of axial load on the angle
Go
Verified
Length of bottom weld in terms of Length of top weld
Go
Verified
Length of bottom weld in terms of resistance of the bottom weld
Go
Verified
Length of bottom weld in terms of total length of weld
Go
Verified
Length of the bottom weld in terms of area of the unsymmetrical weld
Go
Verified
Length of the bottom weld in terms of axial load on the weld
Go
Verified
Length of the bottom weld in terms of the moment of the bottom weld about gravity axis
Go
Verified
Moment of the bottom weld about gravity axis
Go
Verified
Moment of the bottom weld about gravity axis in terms of Resistance of the bottom weld
Go
Verified
Resistance of bottom weld in terms of total resistance
Go
Verified
Resistance of bottom weld in terms of total weld length
Go
Verified
Resistance of the bottom weld
Go
Verified
Resistance of the bottom weld in terms of axial load on the angle
Go
Verified
Resistance of the bottom weld in terms of moment of the bottom weld about gravity axis
Go
Brake Power
(6)
Verified
Brake power of the engine for belt transmission dynamometer
Go
Verified
Brake power of the engine for prony brake dynamometer
Go
Verified
Brake power of the engine for prony brake dynamometer in terms of speed of shaft
Go
Verified
Brake power of the engine for prony brake dynamometer in terms of work done per minute
Go
Verified
Brake power of the engine for rope brake dynamometer
Go
Verified
Brake power of the engine if diameter of rope is neglected for rope brake dynamometer
Go
Brakes and Dynamometers
(21)
Verified
Constant for a particular shaft for torsion dynamometer
Go
Verified
Distance moved in one revolution by rope brake dynamometer
Go
Verified
Effective radius of the drum for the simple band brake
Go
Verified
Netload on the brake for rope brake dynamometer
Go
Verified
Polar moment of inertia of the shaft for a hollow shaft for torsion dynamometer
Go
Verified
Polar moment of inertia of the shaft for a solid shaft for torsion dynamometer
Go
Verified
Polar moment of inertia of the shaft for the torsion dynamometer
Go
Verified
Power transmitted for epicyclic-train dynamometer
Go
Verified
Power transmitted for the torsion dynamometer
Go
Verified
Power transmitted if tangential effort is known for epicyclic-train dynamometer
Go
Verified
Tangential effort for epicyclic-train dynamometer
Go
Verified
Tension in the slack side of the belt for belt transmission dynamometer
Go
Verified
Tension in the tight side of the belt for belt transmission dynamometer
Go
Verified
Tension in tight side of the band for simple band brake
Go
Verified
Torque acting on the shaft for the torsion dynamometer
Go
Verified
Torque on the shaft of prony brake dynamometer
Go
Verified
Torque on the shaft of prony brake dynamometer if the radius of the pulley is known
Go
Verified
Torque transmitted for the epicyclic-train dynamometer
Go
Verified
Torque transmitted if power is known for epicyclic-train dynamometer
Go
Verified
Torsion equation for torsion dynamometer
Go
Verified
Torsion equation for torsion dynamometer in terms of modulus of rigidity
Go
3 More Brakes and Dynamometers Calculators
Go
Braking Torque
(8)
Verified
Braking torque for a double block or shoe brake
Go
Verified
Braking torque for a pivoted block or shoe brake
Go
Verified
Braking torque for shoe brake if line of action of tangential force passes above fulcrum(anti clock)
Go
Verified
Braking torque for shoe brake when the force applied at the end of the lever is known
Go
Verified
Braking torque for the shoe brake
Go
Verified
Braking torque of shoe brake if line of action of tangential force passes above fulcrum(clockwise)
Go
Verified
Braking torque of shoe brake if line of action of tangential force passes below fulcrum(anti clock)
Go
Verified
Braking torque of shoe brake if line of action of tangential force passes below fulcrum(clockwise)
Go
4 More Braking Torque Calculators
Go
Breadth of Rectangle
(5)
Created
Breadth of rectangle when area and length are given
Go
Created
Breadth of rectangle when diagonal and angle between diagonal and length are given
Go
Created
Breadth of rectangle when diagonal and angle between diagonals are given
Go
Created
Breadth of rectangle when diagonal and length are given
Go
Created
Breadth of rectangle when perimeter and length are given
Go
Building Blocks of Integrated-Circuit Amplifiers
(12)
Created
Finite input resistance of small-signal operation of current mirrors in terms of transconductance
Go
Created
Finite input resistance of small-signal operation of the current Mirrors
Go
Created
Finite output resistance of IC Amplifier
Go
Created
Finite output resistance of the IC Amplifier in terms of output resistance
Go
Created
Finite output resistance of the IC Amplifier in terms of the output resistance
Go
Created
Output current of IC Amplifier when Io = Ic
Go
Created
Output current of the IC amplifier
Go
Created
Output current of the IC Amplifier when incremental voltage is given
Go
Created
Output resistance in small-signal operation of current mirrors
Go
Created
Reference current in a current steering
Go
Created
Reference current of BJT Mirror
Go
Created
Voltage gain of small-signal operation of current mirrors
Go
Cams
(19)
Verified
Condition for contact of roller if straight flank merges into nose(tangent cam with roller follower)
Go
Verified
Condition for the maximum acceleration of the follower (Cycloidal motion)
Go
Verified
Condition for the maximum velocity of the follower (Cycloidal motion)
Go
Verified
Displacement of needle for tangent cam with needle-bearing follower(contact with straight flanks)
Go
Verified
Displacement of the follower after time t (Cycloidal motion)
Go
Verified
Displacement of the follower for the circular arc cam(contact on the circular flank)
Go
Verified
Displacement of the roller of tangent cam with roller follower(contact with nose)
Go
Verified
Distance b/w roller center and nose center of tangent cam with roller follower(contact with nose)
Go
Verified
Mean velocity of the follower during the outstroke(uniform acceleration)
Go
Verified
Mean velocity of the follower during the return stroke(uniform acceleration)
Go
Verified
Peripheral speed of projection of point P'(which is projection of point P on dia)for SHM of follower
Go
Verified
Peripheral speed of projection of point P′(which is projection of point P on dia)for SHM of follower
Go
Verified
Time required for a follower during the outstroke(uniform acceleration)
Go
Verified
Time required for the follower during the return stroke(uniform acceleration)
Go
Verified
Time required for the out stroke of the follower when the follower moves with SHM
Go
Verified
Velocity of the follower after time t (Cycloidal motion)
Go
Verified
Velocity of the follower for circular arc cam(contact on the circular flank)
Go
Verified
Velocity of the follower for tangent cam with roller follower(contact with straight flanks)
Go
Verified
Velocity of the follower of the tangent cam with roller follower(contact with nose)
Go
Capacitance Potential Divider
(2)
Verified
V
_{s}
for C
_{2}
>> C
_{v}
Go
Verified
Value of V
_{s}
Go
Capacitor
(5)
Created
Capacitance for Parallel Plate Capacitors with Dielectric Between Them
Go
Created
Capacitor with dielectric
Go
Verified
Energy density in an electric field
Go
Created
Energy Density in Electric Field when Free Space Permittivity is Given
Go
Created
Energy Density when an electric field is given
Go
14 More Capacitor Calculators
Go
Centrifugal Force
(9)
Verified
Centrifugal force at a maximum radius of rotation
Go
Verified
Centrifugal force at a minimum radius of rotation
Go
Verified
Centrifugal force at maximum equilibrium speed on each ball for wilson-hartnell governor
Go
Verified
Centrifugal force at minimum equilibrium speed on each ball for wilson-hartnell governor
Go
Verified
Centrifugal force for pickering governor
Go
Verified
Centrifugal force for the Hartung governor
Go
Verified
Centrifugal force on each ball for the Wilson-Hartnell governor
Go
Verified
The centrifugal force for any intermediate position (Hartnell governor, maximum force)
Go
Verified
The centrifugal force for any intermediate position (Hartnell governor, minimum force)
Go
Change In Dimension Of A Thin Spherical Shell Due To An Internal Pressure
(17)
Verified
Change in diameter of the thin spherical shell
Go
Verified
Diameter of the spherical shell in terms of change in diameter of thin spherical shells
Go
Verified
Diameter of thin spherical shell in terms of strain in any one direction
Go
Verified
Hoop stress in the thin spherical shell in terms of strain in any one direction & Poisson's ratio
Go
Verified
Hoop stress induced in thin spherical shell in terms of strain in any one direction
Go
Verified
Internal fluid pressure in terms of change in diameter of thin spherical shells
Go
Verified
Internal fluid pressure in thin spherical shell in terms of strain in any one direction
Go
Verified
Modulus of elasticity for a thin spherical shell in terms of strain and internal fluid pressure
Go
Verified
Modulus of elasticity in terms of change in diameter of thin spherical shells
Go
Verified
Modulus of elasticity of thin spherical shell in terms of strain in any one direction
Go
Verified
Poisson's ratio for thin spherical shell in terms of strain and internal fluid pressure
Go
Verified
Poisson's ratio for thin spherical shell in terms of strain in any one direction
Go
Verified
Poisson's ratio in terms of change in diameter of a thin spherical shells
Go
Verified
Strain in any one direction of thin spherical shell
Go
Verified
Strain in thin spherical shell in terms of internal fluid pressure
Go
Verified
Thickness of spherical shell in terms of change in diameter of thin spherical shells
Go
Verified
Thickness of thin spherical shell in terms of strain in any one direction
Go
Change In Dimensions
(12)
Verified
Change in circumference of vessel due to pressure in terms of circumferential strain
Go
Verified
Change in diameter in a thin cylindrical strain in terms of volumetric strain
Go
Verified
Change in diameter of cylindrical shell in terms of change in volume of cylindrical shell
Go
Verified
Change in diameter of the vessel in terms of the internal fluid pressure
Go
Verified
Change in diameter of thin cylindrical vessel in terms of circumferential strain
Go
Verified
Change in length in thin cylindrical strain in terms of volumetric strain
Go
Verified
Change in length of a thin cylindrical shell in terms of the internal fluid pressure
Go
Verified
Change in length of cylindrical shell in terms of change in volume of cylindrical shell
Go
Verified
Change in length of thin cylindrical vessel in terms of longitudinal strain
Go
Verified
Change in volume in terms of circumferential strain and longitudinal strain
Go
Verified
Change in volume of cylindrical shell in terms of volumetric strain
Go
Verified
Change in volume of thin cylindrical shell
Go
Circular Ring
(2)
Created
Area of the ring
Go
Created
Perimeter of a ring
Go
Circumference of Circle
(1)
Created
Circumference of the circle when the area of the circle is given
Go
2 More Circumference of Circle Calculators
Go
Circumferential Stress And Strain
(7)
Verified
Circumferential strain for rotating thin disc
Go
Verified
Circumferential strain for rotating thin disc in terms of the radius of disc
Go
Verified
Circumferential strain on the disc in terms of stresses
Go
Verified
Circumferential stress in terms of circumferential strain on disc
Go
Verified
Circumferential stress in terms of initial radial width of disc
Go
Verified
Circumferential stress in terms of radial strain on the disc
Go
Verified
Circumferential stress in terms of radius of disc
Go
Circumscribed circle of rectangle
(6)
Created
Radius of rectangle circumscribed circle when perimeter and length of the rectangle are given
Go
Created
Radius of the Circumscribed Circle of Rectangle in terms of Cosine of Angle Adjacent to the Diagonal and Adjacent Side
Go
Created
Radius of the Circumscribed Circle of Rectangle when perimeter and breadth are given
Go
Created
Radius of the Circumscribed Circle of Rectangle when rectangle sides are given
Go
Created
Radius of the Circumscribed Circle of Rectangle when the diagonal of the rectangle is given
Go
Created
Radius of the Circumscribed Circle of Rectangle when the diameter of a circumscribed circle is given
Go
Class A Output Stage
(22)
Created
Average load power of an output stage
Go
Created
Average load power of class A output stage
Go
Created
Average supply power of an output stage
Go
Created
Bias current in minimum transfer characteristics of emitter-follower in negative limit
Go
Created
Bias current of the emitter-follower
Go
Created
Collector current at instantaneous power dissipation in transistor
Go
Created
Condition of maximum efficiency of emitter follower
Go
Created
Condition of maximum power conversion efficiency
Go
Created
Instantaneous power dissipation of emitter-follower
Go
Created
Load power of an output stage
Go
Created
Maximum transfer characteristics of emitter-follower in positive limit
Go
Created
Maximum voltage of emitter-follower when the transistor saturates
Go
Created
Minimum transfer characteristics of emitter-follower in negative limit
Go
Created
Minimum voltage of emitter-follower when the transistor saturates
Go
Created
Peak output voltage value at the average load power
Go
Created
Power conversion efficiency of an output-stage
Go
Created
Power conversion efficiency of class A output stage
Go
Created
Saturation voltage between collector-emitter at maximum voltage
Go
Created
Saturation voltage between collector-emitter at minimum voltage
Go
Created
Supply power of an output stage
Go
Created
Transfer characteristics of emitter-follower
Go
Created
Voltage between collector-emitter at instantaneous power dissipation
Go
Class B Output Stage
(18)
Created
Average load-power of class B stage
Go
Created
Average power dissipation in class B stage in terms of supply power
Go
Created
Average power dissipation in the class B stage
Go
Created
Efficiency of class B stage
Go
Created
Efficiency of the class B output stage
Go
Created
Load power in class B stage in terms of average power dissipation
Go
Created
Load resistance of class B stage
Go
Created
Maximum average power from a class B output stage
Go
Created
Maximum power dissipation in the class B stage
Go
Created
Negative half of maximum power dissipation in the class B stage
Go
Created
Output sinusoid peak voltage of class B stage
Go
Created
Peak voltage at maximum power dissipation
Go
Created
Positive half of maximum power dissipation in the class B stage
Go
Created
Power drain from positive sine wave
Go
Created
Power drawn from negative sine wave
Go
Created
Supply power in class B stage in terms of average power dissipation
Go
Created
Supply voltage at maximum power dissipation
Go
Created
Total power supply of class B stage
Go
Colpitts Oscillator
(2)
Verified
Effective Capacitance
Go
Verified
Frequency of Oscillation
Go
Columns With Eccentric Load
(22)
Verified
Cross sectional area of column in terms of maximum stress for column with eccentric load
Go
Verified
Deflection at free end in terms of deflection at the section of column with eccentric load
Go
Verified
Deflection at free end in terms of moment at the section of column with eccentric load
Go
Verified
Deflection at the free end of the column with eccentric load
Go
Verified
Deflection at the section of column with eccentric load
Go
Verified
Deflection at the section of column with eccentric load in terms of moment at section
Go
Verified
Distance of section from fixed end in terms of deflection at section of column with eccentric load
Go
Verified
Eccentric load in terms of deflection at the free end of column with eccentric load
Go
Verified
Eccentric load in terms of deflection at the section of column with eccentric load
Go
Verified
Eccentricity in terms of deflection at the free end of the column with eccentric load
Go
Verified
Eccentricity in terms of deflection at the section of column with eccentric load
Go
Verified
Eccentricity in terms of maximum stress for column with eccentric load
Go
Verified
Eccentricity in terms of moment at the section of the column with eccentric load
Go
Verified
Effective length of column in terms of maximum stress for column with eccentric load
Go
Verified
Length of column in terms of deflection at the free end of column with eccentric load
Go
Verified
Maximum stress for column with eccentric load
Go
Verified
Modulus of elasticity in terms of deflection at the section of the column with eccentric load
Go
Verified
Modulus of elasticity in terms of maximum stress for column with eccentric load
Go
Verified
Moment at the section of column with eccentric load
Go
Verified
Moment of inertia in terms of deflection at the section of column with eccentric load
Go
Verified
Moment of inertia in terms of maximum stress for column with eccentric load
Go
Verified
Section modulus in terms of maximum stress for column with eccentric load
Go
2 More Columns With Eccentric Load Calculators
Go
Columns With Initial Curvature
(19)
Verified
Crippling load in terms of factor of safety
Go
Verified
Crippling load in terms of final deflection at distance x from end A of column
Go
Verified
Crippling load in terms of maximum deflection for columns with initial curvature
Go
Verified
Distance from neutral axis of extreme layer in terms of maximum stress for columns
Go
Verified
Euler load
Go
Verified
Euler load in terms of factor of safety
Go
Verified
Euler load in terms of final deflection at distance x from end A of column
Go
Verified
Euler load in terms of maximum deflection for columns with initial curvature
Go
Verified
Euler stress in terms of maximum stress for columns with initial curvature
Go
Verified
Factor of safety in terms of Euler load
Go
Verified
Length of column in terms of Euler load
Go
Verified
Length of column in terms of final deflection at distance x from end A of column
Go
Verified
Length of the column in terms of initial deflection at a distance x from end A
Go
Verified
Maximum stress for columns with initial curvature
Go
Verified
Modulus of elasticity in terms of the Euler load
Go
Verified
Moment of inertia in terms of Euler load
Go
Verified
Radius of gyration in terms of maximum stress for columns with initial curvature
Go
Verified
Value of distance 'x' in terms of final deflection at distance x from end A of column
Go
Verified
Value of distance 'x' in terms of initial deflection at a distance x from end A
Go
Common Mode Rejection Ratio
(20)
Verified
3-dB Frequency of STC Networks for high-pass frequency
Go
Verified
3-dB Frequency of STC Networks for low-pass frequency
Go
Verified
Common Mode Rejection Ratio
Go
Verified
Current gain of the amplifier
Go
Verified
differential input resistance
Go
Verified
Input Offset Current
Go
Verified
Magnitude Response |T(jω)| of STC network for low-pass filter
Go
Verified
Open-Circuit Voltage Gain
Go
Verified
Open-Circuit voltage gain of an amplifier
Go
Verified
Output signal of an amplifier
Go
Verified
Power gain of the amplifier
Go
Verified
Power gain of the amplifier when voltage and current are given
Go
Created
Process transconductance parameter of PMOS
Go
Verified
Short-Circuit Current Gain
Go
Verified
Short-Circuit Transconductance
Go
Verified
Signal Current
Go
Verified
Transfer function of STC networks for high-pass filters
Go
Verified
Voltage across output in an amplifier
Go
Verified
Voltage gain of amplifiers in decibels
Go
Verified
Voltage gain of the amplifier
Go
1 More Common Mode Rejection Ratio Calculators
Go
Common Mode Rejection Ratio
(11)
Created
Collect current when small difference of input voltage is made in BJT Amplifier
Go
Created
Collector current of the BJT differential amplifier in terms of emitter resistance
Go
Created
Differential gain of BJT Amplifier when resistance in the emitter leads
Go
Created
Differential gain of the BJT differential amplifier
Go
Created
Differential input resistance of the BJT Amplifier
Go
Created
Emitter current of the BJT differential amplifier
Go
Created
First collector current of the BJT differential amplifier
Go
Created
Minimum input common-mode range of a BJT differential amplifier
Go
Created
Second emitter resistance of the BJT differential amplifier
Go
Created
Transconductance of the small-signal operation of the BJT Amplifier
Go
Created
Voltage gain of BJT differential half-circuit
Go
Common-base amplifier
(7)
Created
Emitter current of the common-base amplifier
Go
Created
Input resistance of the common-base amplifier
Go
Created
Input resistance of the common-base amplifier in terms of emitter resistance
Go
Created
Input voltage of the common-base amplifier
Go
Created
Output voltage of the common-base amplifier
Go
Created
Overall voltage gain of the common-base amplifier
Go
Created
Overall voltage gain of the common-base amplifier in terms of transconductance
Go
Common-emitter amplifier
(6)
Created
Input resistance of common emitter amplifier in terms of small-signal input resistance
Go
Created
Input resistance of common-emitter amplifier in terms of emitter resistance
Go
Created
Input resistance of the common emitter amplifier
Go
Created
Output resistance of the common-emitter amplifier
Go
Created
Overall voltage gain of common-emitter amplifier in terms of emitter resistance
Go
Created
Overall voltage gain of the common-emitter amplifier
Go
Common-Gate (CG) and the Common-Base (CB) Amplifiers
(15)
Created
Input resistance of the common-collector amplifier
Go
Created
Input resistance of the MOSFETs transconductance
Go
Created
Open-circuit voltage gain of the CS amplifier
Go
Created
Output resistance of the buffer amplifier
Go
Created
Output resistance of the common-drain amplifier
Go
Created
Output resistance of the Emitter-Follower Output
Go
Created
Output voltage in terms of the transconductance
Go
Created
Overall voltage gain of the amplifier
Go
Created
Overall voltage gain of the amplifier when load resistance is connected to the output
Go
Created
Overall voltage gain of the buffer amplifier when the load resistance is given
Go
Created
Overall voltage gain of the common-collector amplifier
Go
Created
Overall voltage gain of the source follower
Go
Created
Voltage gain of the buffer amplifier
Go
Created
Voltage gain of the common-drain amplifier
Go
Created
Voltage gain of the CS amplifier
Go
Common-source amplifier
(3)
Created
Input resistance of the common-source amplifier
Go
Created
Output resistance of the common-source amplifier
Go
Created
Overall voltage gain of the common-source amplifier
Go
Compound Microscopes
(3)
Created
Length of a compound microscope
Go
Created
Magnifying power of a compound microscope
Go
Created
Magnifying power of a compound microscope at infinity
Go
1 More Compound Microscopes Calculators
Go
Constant
(7)
Verified
Length Of Wire Using Constant (1-Phase 2-Wire US)
Go
Verified
Line Losses Using Constant (1-Phase 2-Wire US)
Go
Verified
Load Current Using Constant (1-Phase 2-Wire US)
Go
Verified
Maximum Voltage Using Constant (1-Phase 2-Wire US)
Go
Verified
Power Factor Using Constant (1-Phase 2-Wire US)
Go
Verified
Resistance Using Constant (1-Phase 2-Wire US)
Go
Verified
Resistivity Using Constant (1-Phase 2-Wire US)
Go
4 More Constant Calculators
Go
Constant
(1)
Verified
Resistivity Using K(Two-Wire One Conductor Earthed)
Go
5 More Constant Calculators
Go
Constant
(1)
Verified
Power Transmitted Using Constant(DC 3-wire)
Go
5 More Constant Calculators
Go
Constants
(17)
Verified
Constant 'a' for inner cylinder in terms of hoop stress at radius x
Go
Verified
Constant 'a' for outer cylinder in terms of hoop stress at radius x
Go
Verified
Constant 'a' for outer cylinder in terms of hoop stress at radius x and constant b
Go
Verified
Constant 'a' for outer cylinder in terms of outer radius of cylinder
Go
Verified
Constant 'a' for outer cylinder in terms of radial pressure at radius x
Go
Verified
Constant A for single thick shell in terms of hoop stress due to internal fluid pressure alone
Go
Verified
Constant A for single thick shell in terms of Radial pressure due to internal fluid pressure alone
Go
Verified
Constant 'a' for the inner cylinder in terms of radial pressure at radius x
Go
Verified
Constant 'a' for the outer cylinder in terms of radial pressure at junction of two cylinders
Go
Verified
Constant 'b' for inner cylinder in terms of hoop stress at radius x
Go
Verified
Constant 'b' for inner cylinder in terms of radial pressure at radius x
Go
Verified
Constant 'b' for outer cylinder in terms of hoop stress at radius x
Go
Verified
Constant 'b' for outer cylinder in terms of outer radius of cylinder
Go
Verified
Constant 'b' for outer cylinder in terms of radial pressure at radius x
Go
Verified
Constant B for single thick shell in terms of hoop stress due to internal fluid pressure alone
Go
Verified
Constant B for single thick shell in terms of Radial pressure due to internal fluid pressure alone
Go
Verified
Constant 'b' for the outer cylinder in terms of radial pressure at junction of two cylinders
Go
8 More Constants Calculators
Go
Co-ordinate Type
(2)
Verified
Value of Effective Resistance
Go
Verified
Voltage Output of Volt Ratio Box
Go
Critical or Whirling Speed of a Shaft
(1)
Verified
Centrifugal force acting radially outwards, causing the shaft to deflect
Go
11 More Critical or Whirling Speed of a Shaft Calculators
Go
Current
(2)
Verified
Armature Current Of Series DC Generator Using Output Power
Go
Verified
Load Current Of Series DC Generator Using Output Power
Go
5 More Current Calculators
Go
Current and Voltage characteristics of transistor
(4)
Created
Collector current when early voltage is given for NPN transistor
Go
Created
Collector current when early voltage is given for PNP transistor
Go
Created
Output resistance of BJT
Go
Created
Output resistance of transistor when base current is constant
Go
Current Electricity
(25)
Created
Current Density when Electric Current and Area is Given
Go
Created
Current Density when Resistivity is Given
Go
Created
Drift Speed
Go
Created
Drift Speed when Cross-Sectional Area is Given
Go
Created
Electric Current when Charge and Time are Given
Go
Created
Electric Field
Go
Created
Electromotive force when battery is charging
Go
Created
Electromotive force when battery is discharging
Go
Created
Equivalent resistance in parallel
Go
Created
Equivalent resistance in series
Go
Created
Heat Energy when an electric potential difference, the electric current and time taken
Go
Created
Heat Energy when an electric potential difference, time taken, and resistance through a conductor is given
Go
Created
Heat generated through resistance
Go
Created
Internal resistance using potentiometer
Go
Created
Metre Bridge
Go
Created
Ohm's Law
Go
Created
Potential difference through voltmeter
Go
Created
Power, when electric current and resistance are given
Go
Created
Power, when electric potential difference and resistance are given,
Go
Created
Resistance
Go
Created
Resistance of a Wire
Go
Created
Resistance on stretching of wire
Go
Created
Resistivity of the material
Go
Created
Shunt in ammeter
Go
Created
Temperature Dependence of Resistance
Go
2 More Current Electricity Calculators
Go
Current flow
(13)
Created
Base Current 1 of BJT
Go
Created
Base Current 2 of BJT
Go
Created
Collector Current of BJT
Go
Created
Collector current when emitter current is given
Go
Created
Collector current when saturation current of DC is given
Go
Created
Common-base current gain
Go
Created
Common-emitter current gain in terms of common-base current gain
Go
Created
Concentration of electrons injected from emitter to base
Go
Created
Emitter Current of BJT
Go
Created
Emitter current when collector current and current gain is given
Go
Created
Emitter current when common-emitter current gain is given
Go
Created
Emitter current when constant of the transistor is given
Go
Created
Total base current
Go
Current-Mirror Circuits with Improved Performance
(8)
Created
Emitter resistance of the Widlar Current Source
Go
Created
Output current of the Widlar Current Source
Go
Created
Output current of Wilson current mirror
Go
Created
Output resistance of the Cascode MOS Mirrors
Go
Created
Output resistance of the Widlar Current Source
Go
Created
Output resistance of the Wilson current mirror
Go
Created
Output resistance of the Wilson MOS Mirror
Go
Created
Reference current of Wilson current mirror
Go
DC Motor
(7)
Verified
Back EMF for max power condition of DC Motor
Go
Verified
EMF of DC Motor using EMF Equation
Go
Verified
Induced Back EMF
Go
Verified
Power of DC Motor using Power Equation
Go
Verified
Shunt Field Current in the DC motor
Go
Verified
Speed of DC Motor
Go
Verified
Torque of DC Motor
Go
13 More DC Motor Calculators
Go
DC Offset
(12)
Created
Input bias current of the differential amplifier
Go
Created
Input bias current of the differential amplifier in terms of common-emitter current gain
Go
Created
Input offset current of the differential amplifier
Go
Created
Input offset current of the differential amplifier in terms of common-emitter current gain
Go
Created
Input Offset Voltage of the BJT Differential Amplifier in terms of collector resistance
Go
Created
Input Offset Voltage of the MOS Differential Amplifier
Go
Created
Input Offset Voltage of the MOS Differential Amplifier in terms of saturation current
Go
Created
Input Offset Voltage of the MOS Differential Amplifier in terms of threshold voltage
Go
Created
Input Offset Voltage of the MOS Differential Amplifier in terms of transconductance
Go
Created
Input Offset Voltage of the MOS Differential Amplifier when aspect ratio mismatches
Go
Created
Total Input Offset Voltage of the MOS Differential Amplifier
Go
Created
Total Input Offset Voltage of the MOS Differential Amplifier in terms of saturation current
Go
De Sauty Bridge
(3)
Verified
Value of Dissipation Factor
Go
Verified
Value of Unknown Capacitance of De Sauty Bridge
Go
Verified
Value of Unknown Capacitance with Dielectric Losses
Go
Deflection
(7)
Verified
Final deflection at distance x from end A of column
Go
Verified
Initial deflection at a distance x from end A
Go
Verified
Maximum deflection for columns with initial curvature
Go
Verified
Maximum initial deflection in terms of final deflection at distance x from end A of column
Go
Verified
Maximum initial deflection in terms of initial deflection at a distance x from end A
Go
Verified
Maximum initial deflection in terms of maximum deflection for columns with initial curvature
Go
Verified
Maximum initial deflection in terms of maximum stress for columns with initial curvature
Go
Delta & Star Impedance
(5)
Verified
Delta Impedance Using Star Impedance
Go
Verified
Star Impedance For Star Connected Load Using Negative Sequence Voltage
Go
Verified
Star Impedance For Star Connected Load Using Positive Sequence Voltage
Go
Verified
Star Impedance For Star Connected Load Using Zero Sequence Voltage
Go
Verified
Star Impedance Using Delta Impedance
Go
3 More Delta & Star Impedance Calculators
Go
Density Of Disc
(9)
Verified
Density of disc material in terms of radial stress in a solid disc and outer radius of disc
Go
Verified
Density of material in terms of circumferential stress at the center of the solid disc
Go
Verified
Density of material in terms of circumferential stress in a solid disc
Go
Verified
Density of material in terms of circumferential stress in a solid disc and outer radius of disc
Go
Verified
Density of material in terms of constant at boundary condition for circular disc
Go
Verified
Density of material in terms of maximum circumferential stress in solid disc
Go
Verified
Density of material in terms of maximum radial stress in solid disc
Go
Verified
Density of material in terms of radial stress at the center of solid disc
Go
Verified
Density of material in terms of radial stress in a solid disc
Go
Design Of A Riveted Joint
(14)
Verified
Diameter of rivet in terms of efficiency of riveted joint
Go
Verified
Diameter of rivet(for dimension in cm)
Go
Verified
Diameter of rivet(for dimension in mm)
Go
Verified
Efficiency of riveted joint in terms of pitch of rivet
Go
Verified
Force transmitted across joints in terms of a number of rivets in a small joint
Go
Verified
Least rivet value for shearing and bearing in terms of number of rivets in a small joint
Go
Verified
Number of rivets in a small joint
Go
Verified
Pitch of rivets in terms of 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 in terms of thickness of cover plate for butt joint with double cover plate
Go
Verified
Thickness of main plate in terms of 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
Deviation Of Shear Stress Produced In A Circular Shaft Subjected To Torsion
(17)
Verified
Angle of a twist if shear strain at the outer surface of the shaft is known
Go
Verified
Angle of a twist if shear stress-induced at radius 'r' from the center of the shaft is given
Go
Verified
Angle of twist if shear stress induced at the surface of shaft is known
Go
Verified
Length of the shaft if shear strain at the outer surface of the shaft is known
Go
Verified
Length of the shaft if shear stress-induced at radius 'r' from the center of the shaft is given
Go
Verified
Length of the shaft if shear stress-induced at the surface of the shaft is known
Go
Verified
Modulus of rigidity of material of shaft if shear stress-induced at surface of shaft is known
Go
Verified
Modulus of rigidity of shaft if shear stress-induced at radius 'r' from the center of shaft is given
Go
Verified
Radius of the shaft if shear strain at the outer surface of the shaft is known
Go
Verified
Radius of the shaft if shear stress-induced at radius 'r' from the center of the shaft is given
Go
Verified
Radius of the shaft if shear stress-induced at the surface of the shaft is known
Go
Verified
Shear strain at the outer surface of the circular shaft
Go
Verified
Shear stress at surface of shaft if shear stress-induced at radius 'r' from center of shaft is given
Go
Verified
Shear stress-induced at radius 'r' from the center of shaft if the modulus of rigidity is known
Go
Verified
Shear stress-induced at radius 'r' from the center of the shaft
Go
Verified
Shear stress-induced at the surface of the shaft
Go
Verified
Value of radius 'r' if shear stress-induced at radius 'r' from the center of the shaft is given
Go
Diagonal and Side of a square
(3)
Created
Diagonal of square when length of segment is given
Go
Created
Diagonal of the square when circumradius is given
Go
Created
Diagonal of the square when inradius is given
Go
2 More Diagonal and Side of a square Calculators
Go
Diagonal of Rectangle
(3)
Created
Diagonal of the rectangle when the radius of the circumscribed circle is given
Go
Created
Radius of the Circumscribed Circle of Rectangle in terms of sine of the angle that adjacent to the diagonal and the opposite
Go
Created
Rectangle diagonal in terms of cosine of the angle that adjacent to the diagonal and the adjacent side of the angle
Go
7 More Diagonal of Rectangle Calculators
Go
Diagonal of the parallelogram
(3)
Created
Diagonal of the Parallelogram given sides and angle between sides
Go
Created
Largest Diagonal of a Parallelogram given area, smallest diagonal and angles between diagonals
Go
Created
Smallest Diagonal of a Parallelogram given area, largest diagonal and angle between diagonals
Go
6 More Diagonal of the parallelogram Calculators
Go
Diameter of Rivet
(7)
Verified
Diameter of rivet in terms of crushing strength for double rivet
Go
Verified
Diameter of rivet in terms of crushing strength for 'n' number of rivets
Go
Verified
Diameter of rivet in terms of crushing strength for single rivet
Go
Verified
Diameter of rivet in terms of crushing strength for triple-rivet
Go
Verified
Diameter of rivet in terms of shearing strength if rivet is in single shear
Go
Verified
Diameter of rivet in terms of shearing strength if the rivet is in the double shear
Go
Verified
Diameter of rivet in terms of tearing strength of rivet
Go
Diameter of Spring
(5)
Verified
Diameter of spring wire in terms of deflection of spring
Go
Verified
Diameter of spring wire in terms of maximum shear stress induced in the wire
Go
Verified
Diameter of spring wire in terms of stiffness of helical spring
Go
Verified
Diameter of spring wire in terms of strain energy stored by spring
Go
Verified
Diameter of spring wire in terms of twisting moment
Go
Diameter Of Wire
(7)
Verified
Diameter of the wire in terms of initial tensile force and length of the wire
Go
Verified
Diameter of the wire in terms of resisting force on the wire
Go
Verified
Diameter of wire in terms of bursting force due to fluid pressure
Go
Verified
Diameter of wire in terms of compressive circumferential stress exerted by the wire
Go
Verified
Diameter of wire in terms of initial tensile force in the wire
Go
Verified
Diameter of wire in terms of resisting force of wire per cm length
Go
Verified
Diameter of wire in terms of the number of turns of wire in length 'L'
Go
Distance of Parabola
(1)
Created
Length of latus rectum of parabola
Go
12 More Distance of Parabola Calculators
Go
Double L2G Fault
(16)
Verified
a-Phase Current (LLGF)
Go
Verified
a-Phase Voltage Using Zero Sequence Voltage (LLGF)
Go
Verified
b-Phase Current (LLGF)
Go
Verified
b-Phase Voltage (LLGF)
Go
Verified
b-Phase Voltage Using Fault Current (LLGF)
Go
Verified
b-Phase Voltage Using Zero Sequence Current (LLGF)
Go
Verified
b-Phase Voltage Using Zero-Sequence Voltage (LLGF)
Go
Verified
c-Phase Current (LLGF)
Go
Verified
c-Phase Voltage (LLGF)
Go
Verified
c-Phase Voltage Using Fault Current (LLGF)
Go
Verified
c-Phase Voltage Using Zero Sequence Current (LLGF)
Go
Verified
Fault Current (LLGF)
Go
Verified
Fault Current Using c-phase Voltage (LLGF)
Go
Verified
Fault Current Using the b-phase Voltage (LLGF)
Go
Verified
Fault Impedance Using b-phase Voltage (LLGF)
Go
Verified
Fault Impedance Using c-phase Voltage (LLGF)
Go
1 More Double L2G Fault Calculators
Go
Dual Slope/Integrating Type
(3)
Verified
Conversion Time
Go
Verified
Number of Pulses
Go
Verified
Value of V
_{a}
Go
Effect Of Internal Pressure On Dimension Of Thin Cylindrical Shell
(23)
Verified
Diameter of a thin cylindrical strain in terms of volumetric strain
Go
Verified
Diameter of the cylindrical shell in terms of change in length of the cylindrical shell
Go
Verified
Diameter of thin cylindrical shell in terms of volumetric strain
Go
Verified
Hoop stress in a thin cylindrical vessel in terms of the Longitudinal strain
Go
Verified
Hoop stress in terms of circumferential strain
Go
Verified
Internal diameter of thin cylindrical vessel in terms of circumferential strain
Go
Verified
Internal diameter of thin cylindrical vessel in terms of longitudinal strain
Go
Verified
Internal fluid pressure in a thin cylindrical vessel in terms of change in diameter
Go
Verified
Internal fluid pressure in shell in terms of volumetric strain
Go
Verified
Internal fluid pressure in terms of change in length of a cylindrical shell
Go
Verified
Internal fluid pressure in terms of circumferential strain
Go
Verified
Internal fluid pressure in thin cylindrical vessel in terms of longitudinal strain
Go
Verified
Length of cylindrical shell in terms of change in length of cylindrical shell
Go
Verified
Length of cylindrical shell in terms of change in volume of cylindrical shell
Go
Verified
Length of thin cylindrical strain in terms of volumetric strain
Go
Verified
Longitudinal stress in a thin cylindrical vessel in terms of the Longitudinal strain
Go
Verified
Longitudinal stress in terms of circumferential strain
Go
Verified
Original circumference of thin cylindrical vessel in terms of circumferential strain
Go
Verified
Original diameter of thin cylindrical vessel in terms of circumferential strain
Go
Verified
Original diameter of vessel in terms of change in diameter
Go
Verified
Original length of vessel in terms of longitudinal strain
Go
Verified
The original volume of the cylindrical shell in terms of the volumetric strain
Go
Verified
Volume of thin cylindrical shell in terms of circumferential and longitudinal strain
Go
Effective Length Of A Column
(11)
Verified
Crippling load for any type of end condition
Go
Verified
Crippling load in terms of effective length and radius of gyration
Go
Verified
Cross sectional area of column in terms of effective length and radius of gyration
Go
Verified
Effective length of column in terms of actual length if both ends of column are fixed
Go
Verified
Effective length of column in terms of actual length if both ends of column are hinged
Go
Verified
Effective length of column in terms of actual length if one end is fixed other is hinged
Go
Verified
Effective length of column in terms of crippling load for any type of end condition
Go
Verified
Effective length of the column in terms of actual length if one end is fixed other is free
Go
Verified
Least radius of gyration in terms of slenderness ratio
Go
Verified
Modulus of elasticity in terms of crippling load for any type of end condition
Go
Verified
Moment of inertia in terms of crippling load for any type of end condition
Go
10 More Effective Length Of A Column Calculators
Go
Efficiency Of A Joint
(10)
Verified
Efficiency of longitudinal joint in terms of hoop stress
Go
Verified
Efficiency of the circumferential joint in terms of the longitudinal stress
Go
Verified
Hoop stress if the efficiency of the longitudinal joint is known
Go
Verified
Internal diameter of a vessel in terms of longitudinal stress & efficiency of circumferential joint
Go
Verified
Internal diameter of vessel in terms of hoop stress and efficiency of longitudinal joint
Go
Verified
Internal fluid pressure in a vessel in terms of hoop stress and efficiency of longitudinal joint
Go
Verified
Internal fluid pressure in terms of longitudinal stress & efficiency of circumferential joint
Go
Verified
Longitudinal stress if efficiency of circumferential joint is known
Go
Verified
Thickness of the vessel in terms of hoop stress and efficiency of the longitudinal joint
Go
Verified
Thickness of vessel in terms of longitudinal stress and efficiency of circumferential joint
Go
Electric Traction
(18)
Verified
Accelerating weight of train
Go
Verified
Coefficient of Adhesion
Go
Verified
Crest Speed when time for acceleration is given
Go
Verified
Energy required for overcoming the gradient and tracking resistance
Go
Verified
Gradient of train for the proper movement of traffic
Go
Verified
maximum power output from driving axle
Go
Verified
power output of motor when the efficiency of gear transmission is given
Go
Verified
Retardation of Train
Go
Verified
Schedule Speed
Go
Verified
Schedule Time
Go
Verified
Schedule time of run
Go
Verified
Specific Energy Consumption
Go
Verified
The energy available due to the reduction in the speed
Go
Verified
the energy available during the regeneration
Go
Verified
The energy consumption at the axle of the train
Go
Verified
Time for Acceleration
Go
Verified
Time for Retardation
Go
Verified
Total energy required for the run
Go
Electrodynamometer Type Wattmeter
(2)
Verified
Angle of Deflection of ED Wattmeter
Go
Verified
Deflecting Torque of ED Wattmeter
Go
Electromagnetic Induction
(5)
Verified
Capacitive Reactance
Go
Created
Current Value for Alternating Current
Go
Created
Impedance for LCR Circuit
Go
Created
Impedance for LR Circuit
Go
Created
Impedance for RC Circuit
Go
21 More Electromagnetic Induction Calculators
Go
End Condenser Method
(2)
Verified
Capacitive Current(ECM)
Go
Verified
Receiving End Voltage(ECM)
Go
5 More End Condenser Method Calculators
Go
Energy Method
(1)
Verified
Potential Energy when Displacement of Body is Given
Go
Equilibrium Method
(15)
Verified
Acceleration of body in terms of stiffness of the constraint
Go
Verified
Angular velocity of free longitudinal vibrations
Go
Verified
Displacement of the body in terms of stiffness of the constraint
Go
Verified
Gravitational pull balanced by the spring force
Go
Verified
Length of the constraint
Go
Verified
Load attached to the free end of constraint
Go
Verified
Natural frequency of free longitudinal vibrations
Go
Verified
Natural frequency of free longitudinal vibrations if static deflection is known
Go
Verified
Natural frequency of free longitudinal vibrations if stiffness of constraint is known
Go
Verified
Natural frequency of free longitudinal vibrations if the time period is known
Go
Verified
Restoring force
Go
Verified
Restoring force if weight of the body in newtons is known
Go
Verified
Static deflection
Go
Verified
Static deflection if natural frequency is known
Go
Verified
Time period of free longitudinal vibrations
Go
1 More Equilibrium Method Calculators
Go
Estimation of Effective Length of Columns
(5)
Verified
Actual length in terms of slenderness ratio
Go
Verified
Actual length of column in terms of effective length if both ends of column are fixed
Go
Verified
Actual length of column in terms of effective length if both ends of column are hinged
Go
Verified
Actual length of column in terms of effective length if one end is fixed other is free
Go
Verified
Actual length of column in terms of effective length if one end is fixed other is hinged
Go
16 More Estimation of Effective Length of Columns Calculators
Go
Expression For Strain Energy Stored In A Body Due To Torsion
(22)
Verified
Inner diameter of the shaft if total strain energy in the hollow shaft is given
Go
Verified
Length of the shaft in terms of shear strain energy in the ring of radius 'r'
Go
Verified
Length of the shaft in terms of total strain energy stored in the shaft
Go
Verified
Modulus of rigidity in terms of shear strain energy
Go
Verified
Modulus of rigidity of shaft in terms of shear strain energy in the ring of radius 'r'
Go
Verified
Modulus of rigidity of shaft in terms of total strain energy in the shaft due to torsion
Go
Verified
Modulus of rigidity of shaft in terms of total strain energy stored in the shaft
Go
Verified
Modulus of rigidity of the shaft if total strain energy in the hollow shaft is given
Go
Verified
Polar moment of inertia of shaft in terms of total strain energy stored in the shaft
Go
Verified
Radius of the shaft in terms of shear strain energy in the ring of radius 'r'
Go
Verified
Radius of the shaft in terms of shear stress at radius 'r' from the center
Go
Verified
Radius of the shaft in terms of total strain energy stored in the shaft
Go
Verified
Shear strain energy
Go
Verified
Shear strain energy in the ring of radius 'r'
Go
Verified
Total strain energy in the hollow shaft due to the torsion
Go
Verified
Total strain energy in the shaft due to the torsion
Go
Verified
Total strain energy stored in the shaft
Go
Verified
Value of radius 'r' in terms of shear strain energy in the ring of radius 'r'
Go
Verified
Value of radius 'r' in terms of shear stress at radius 'r' from the center
Go
Verified
Volume in terms of shear strain energy
Go
Verified
Volume of a shaft in terms of total strain energy in the shaft due to the torsion
Go
Verified
Volume of the shaft if total strain energy in the hollow shaft is given
Go
Expression For Stresses In A Rotating Thin Disc
(21)
Verified
Angular speed of rotation for a thin cylinder in terms of hoop stress in thin cylinder
Go
Verified
Density of cylinder material in terms of hoop stress (for thin cylinder)
Go
Verified
Density of material of cylinder in terms of hoop stress and tangential velocity
Go
Verified
Final circumference in terms of circumferential strain for rotating thin disc
Go
Verified
Hoop stress in the thin cylinder
Go
Verified
Hoop stress in thin cylinder in terms of tangential velocity of cylinder
Go
Verified
Increase in radius in terms of circumferential strain for rotating thin disc
Go
Verified
Increase in radius of disc in terms of stresses
Go
Verified
Initial circumference in terms of circumferential strain for rotating thin disc
Go
Verified
Mean radius of cylinder in terms of hoop stress in thin cylinder
Go
Verified
Modulus of elasticity in terms of circumferential strain on disc
Go
Verified
Modulus of elasticity in terms of radial strain on disc
Go
Verified
Modulus of elasticity in terms of radius of disc
Go
Verified
Modulus of elasticity in terms of the initial radial width of the disc
Go
Verified
Poisson's ratio in terms of circumferential strain on disc
Go
Verified
Poisson's ratio in terms of initial radial width of disc
Go
Verified
Poisson's ratio in terms of radial strain on the disc
Go
Verified
Poisson's ratio in terms of the radius of disc
Go
Verified
Radius of disc in terms of circumferential strain for rotating thin disc
Go
Verified
Radius of disc in terms of stresses on disc
Go
Verified
Tangential velocity of the cylinder in terms of hoop stress in a thin cylinder
Go
Expression For Stresses In A Solid Disc
(19)
Verified
Circumferential stress at the center of solid disc
Go
Verified
Circumferential stress in a solid disc
Go
Verified
Circumferential stress in a solid disc in terms of outer radius of disc
Go
Verified
Constant at boundary condition for the circular disc
Go
Verified
Constant at boundary condition in terms of circumferential stress in a solid disc
Go
Verified
Constant at boundary condition in terms of radial stress in a solid disc
Go
Verified
Maximum circumferential stress in the solid disc
Go
Verified
Maximum radial stress in the solid disc
Go
Verified
Poisson's ratio in terms of circumferential stress at the center of solid disc
Go
Verified
Poisson's ratio in terms of circumferential stress in a solid disc
Go
Verified
Poisson's ratio in terms of constant at boundary condition for circular disc
Go
Verified
Poisson's ratio in terms of maximum circumferential stress in a solid disc
Go
Verified
Poisson's ratio in terms of maximum radial stress in solid disc
Go
Verified
Poisson's ratio in terms of radial stress at the center of solid disc
Go
Verified
Poisson's ratio in terms of radial stress in a solid disc
Go
Verified
Poisson's ratio in terms of radial stress in a solid disc and outer radius of disc
Go
Verified
Radial stress at the center of solid disc
Go
Verified
Radial stress in a solid disc
Go
Verified
Radial stress in a solid disc in terms of outer radius of disc
Go
Expression For Torque In Terms Of Polar Moment Of Inertia
(11)
Verified
Angle of twist for a shaft in terms of polar moment of inertia and modulus of rigidity
Go
Verified
Diameter of the shaft in terms of the polar moment of inertia of the shaft
Go
Verified
Length of the shaft in terms of polar moment of inertia and modulus of rigidity
Go
Verified
Maximum shear stress in the shaft in terms of the polar moment of inertia
Go
Verified
Modulus of rigidity of shaft in terms of Torque transmitted and Polar moment of inertia
Go
Verified
Polar moment of inertia of shaft in terms of Torque transmitted and modulus of rigidity
Go
Verified
Polar moment of inertia of the shaft
Go
Verified
Polar moment of inertia of the shaft in terms of torque transmitted by the shaft
Go
Verified
Radius of the shaft in terms of the polar moment of inertia
Go
Verified
Torque transmitted by shaft in terms of polar moment of inertia and modulus of rigidity
Go
Verified
Torque transmitted by shaft in terms of the polar moment of inertia
Go
Expressions For Crippling Load When Both Ends Of The Column Are Hinged
(7)
Verified
Crippling load in terms of Moment at the section if both ends of column are hinged
Go
Verified
Crippling load when both ends of column are hinged
Go
Verified
Deflection at section in terms of Moment at the section if both ends of column are hinged
Go
Verified
Length of column in terms of crippling load when both ends of column are hinged
Go
Verified
Modulus of elasticity in terms of crippling load when both ends of column are hinged
Go
Verified
Moment due to crippling load at the section if both ends of column are hinged
Go
Verified
Moment of inertia in terms of crippling load when both ends of column are hinged
Go
Expressions For Crippling Load When Both Ends Of The Column AreFixed
(8)
Verified
Crippling load if both the ends of column are fixed
Go
Verified
Crippling load in terms of moment of the section if both the ends of column are fixed
Go
Verified
Deflection at section in terms of moment of the section if both the ends of column are fixed
Go
Verified
Length of column in terms of crippling load if both the ends of column are fixed
Go
Verified
Modulus of elasticity in terms of crippling load if both the ends of column are fixed
Go
Verified
Moment of fixed ends in terms of moment of the section if both the ends of column are fixed
Go
Verified
Moment of inertia in terms of crippling load if both the ends of column are fixed
Go
Verified
Moment of the section if both the ends of column are fixed
Go
Expressions For Crippling Load When One End Of Column Is Fixed And Other Is Free
(8)
Verified
Crippling load if one end of column is fixed and other is free
Go
Verified
Crippling load in terms of moment of section if one end of column is fixed and other is free
Go
Verified
Deflection at free end in terms of moment of section if one end of column is fixed & other is free
Go
Verified
Deflection of section in terms of moment of section if one end of column is fixed & other is free
Go
Verified
Length of column in terms of crippling load if one end of column is fixed and other is free
Go
Verified
Modulus of elasticity in terms of crippling load if one end of column is fixed and other is free
Go
Verified
Moment of inertia in terms of crippling load if one end of column is fixed and other is free
Go
Verified
Moment of section due to crippling load if one end of column is fixed and other is free
Go
Expressions For Crippling Load When One End Of Column Is Fixed And Other Is Hinged
(9)
Verified
Crippling load if one end of column is fixed and other is hinged
Go
Verified
Crippling load in terms of Moment at the section if one end of column is fixed and other is hinged
Go
Verified
Deflection at section in terms of Moment at section if one end of column is fixed & other is hinged
Go
Verified
Horizontal reaction in terms of Moment at section if one end of column is fixed & other is hinged
Go
Verified
Length of column in terms of crippling load if one end of column is fixed and other is hinged
Go
Verified
Length of column in terms of Moment at section if one end of column is fixed & other is hinged
Go
Verified
Modulus of elasticity in terms of crippling load if one end of column is fixed and other is hinged
Go
Verified
Moment at the section if one end of column is fixed and other is hinged
Go
Verified
Moment of inertia in terms of crippling load if one end of column is fixed and other is hinged
Go
Failure Due To Crushing Of Rivet Or Plate
(24)
Verified
Allowable crushing stress in terms of safe load which a rivet can withstand against crushing
Go
Verified
Allowable crushing stress in terms of safe load which a rivet can withstand projected area is given
Go
Verified
Allowable crushing stress in terms of strength of joint per pitch length of joint against crushing
Go
Verified
Allowable crushing stress in terms of strength of joint per pitch length(double rivet)
Go
Verified
Allowable crushing stress in terms of strength of joint per pitch length(single rivet)
Go
Verified
Allowable crushing stress in terms of strength of joint per pitch length(triple rivet)
Go
Verified
Diameter of rivet in terms of safe load that a rivet can withstand against crushing
Go
Verified
Diameter of rivet in terms of strength of joint per pitch length (single rivet)
Go
Verified
Diameter of rivet in terms of strength of joint per pitch length of joint against crushing
Go
Verified
Diameter of rivet in terms of strength of joint per pitch length(double rivet)
Go
Verified
Diameter of rivet in terms of strength of joint per pitch length(triple-rivet)
Go
Verified
Number of rivets in terms of strength of joint per pitch length of joint against crushing
Go
Verified
Projected area in terms of safe load which a rivet can withstand against crushing
Go
Verified
Safe load which a rivet can withstand against crushing
Go
Verified
Safe load which a rivet can withstand against crushing in terms of projected area
Go
Verified
Strength of joint per pitch length of joint against crushing
Go
Verified
Strength of joint per pitch length of joint against crushing(double rivet)
Go
Verified
Strength of joint per pitch length of joint against crushing(single rivet)
Go
Verified
Strength of joint per pitch length of joint against crushing(triple rivet)
Go
Verified
Thickness of plates in terms of safe load which a rivet can withstand against crushing
Go
Verified
Thickness of plates in terms of strength of joint per pitch length (double rivet)
Go
Verified
Thickness of plates in terms of strength of joint per pitch length of joint against crushing
Go
Verified
Thickness of plates in terms of strength of joint per pitch length(single rivet)
Go
Verified
Thickness of plates in terms of strength of joint per pitch length(triple rivet)
Go
Failure Due To Shearing Of Rivet
(22)
Verified
Diameter of rivet in terms of safe load for butt joint with double cover plates(double shear)
Go
Verified
Diameter of rivet in terms of safe load for butt joint with single cover plates(double rivet)
Go
Verified
Diameter of rivet in terms of safe load for butt joint with single cover plates(single rivet)
Go
Verified
Diameter of rivet in terms of safe load for lap joint(single shear)
Go
Verified
Diameter of rivet in terms of safe load per pitch length in case of lap joint(double rivet)
Go
Verified
Diameter of rivet in terms of safe load per pitch length in case of lap joint(single rivet)
Go
Verified
Diameter of rivet in terms of safe load per pitch length in the case of lap joint(triple-rivet)
Go
Verified
Diameter of rivet in terms of strength of joint for butt joint with double cover plates
Go
Verified
Diameter of rivet in terms of strength of joint for lap joint(single shear)
Go
Verified
Diameter of rivets in terms of safe load for butt joint with single cover plates (triple-rivet)
Go
Verified
No. of rivets per pitch length in terms of strength of joint for butt joint with double cover plates
Go
Verified
Number of rivets covered per pitch length in terms of strength of joint for lap joint(single shear)
Go
Verified
Safe load a rivet can withstand in the case of the lap joint (single shear)
Go
Verified
Safe load per pitch length in case of butt joint with double cover plates(double shear)
Go
Verified
Safe load per pitch length in case of butt joint with single cover plates(double rivet)
Go
Verified
Safe load per pitch length in case of butt joint with single cover plates(single rivet)
Go
Verified
Safe load per pitch length in case of butt joint with single cover plates(triple-rivet)
Go
Verified
Safe load per pitch length in case of lap joint(double rivet)
Go
Verified
Safe load per pitch length in case of lap joint(single rivet)
Go
Verified
Safe load per pitch length in the case of the lap joint (triple-rivet)
Go
Verified
Strength of joint per pitch length in case of butt joint with double cover plates
Go
Verified
Strength of joint per pitch length in case of lap joint with(single shear)
Go
Failure Due To Tearing Of The Plate Between Rivets Of A Row
(8)
Verified
Area of plate if safe tensile load that plate can withstand is given
Go
Verified
Diameter of the rivet in terms of safe tensile load that the plate can withstand
Go
Verified
Pitch of the rivet in terms of safe tensile load that the plate can withstand
Go
Verified
Safe tensile load that the plate can withstand
Go
Verified
Safe tensile load that the plate can withstand in terms of area of the plate
Go
Verified
Safe tensile stress if safe tensile load that plate can withstand in terms of area of plate is given
Go
Verified
Safe tensile stress in the plate
Go
Verified
Thickness of the Plate in terms of safe tensile load that the plate can withstand
Go
Failure Due To Tearing Of The Plate Between The Rivet Hole And Edge
(2)
Verified
Diameter of rivet in terms of margin
Go
Verified
Margin if diameter of rivet is known
Go
Failure Of A Column
(19)
Verified
Area of cross-section in terms of compressive stress induced during failure of short column
Go
Verified
Area of cross-section in terms of stress due to direct load for a long column
Go
Verified
Area of the cross-section of a column in terms of the crushing stress
Go
Verified
Compressive load in terms of compressive stress induced during failure of short column
Go
Verified
Compressive load in terms of stress due to bending at the center of long column
Go
Verified
Compressive load in terms of stress due to direct load for a long column
Go
Verified
Compressive stress induced during failure of the short column
Go
Verified
Crushing load for a short column
Go
Verified
Crushing stress for a short column
Go
Verified
Maximum bending of the column at the center
Go
Verified
Maximum stress for failure of a long column
Go
Verified
Minimum stress for failure of a long column
Go
Verified
Section modulus about the axis of bending for long column
Go
Verified
Stress due to bending at center of column in terms of maximum stress for failure of a long column
Go
Verified
Stress due to bending at center of column in terms of minimum stress for failure of a long column
Go
Verified
Stress due to bending at the center of long column
Go
Verified
Stress due to direct load for a long column
Go
Verified
Stress due to direct load in terms of maximum stress for failure of a long column
Go
Verified
Stress due to direct load in terms of minimum stress for failure of a long column
Go
Fault
(12)
Verified
Negative Phase Current For Delta Connected Load
Go
Verified
Negative Sequence Current For Star Connected Load
Go
Verified
Negative Sequence Voltage For Delta Connected Load
Go
Verified
Negative Sequence Voltage For Star Connected Load
Go
Verified
Positive Sequence Current For Delta Connected Load
Go
Verified
Positive Sequence Current For Star Connected Load
Go
Verified
Positive Sequence Voltage For Delta Connected Load
Go
Verified
Positive Sequence Voltage For Star Connected Load
Go
Verified
Symmetric Component Current Using Sequence Impedance
Go
Verified
Symmetric Component Voltage Using Sequence Impedance
Go
Verified
Zero Sequence current For Star Connected Load
Go
Verified
Zero Sequence Voltage For Star Connected Load
Go
Flanged Coupling
(16)
Verified
Diameter of the bolt in terms of the maximum load that can be resisted by one bolt
Go
Verified
Diameter of the bolt in terms of torque resisted by one bolt
Go
Verified
Diameter of the bolt in terms of torque resisted by the n bolts
Go
Verified
Diameter of the bolt pitch circle in terms of torque resisted by one bolt
Go
Verified
Diameter of the bolt pitch circle in terms of torque resisted by the n bolts
Go
Verified
Diameter of the shaft in terms of torque transmitted by the shaft
Go
Verified
Maximum amount of load that can be resisted by one bolt
Go
Verified
Number of bolts in terms of torque resisted by the n bolts
Go
Verified
Shear stress in the bolt in terms of the maximum load that can be resisted by one bolt
Go
Verified
Shear stress in the bolt in terms of torque resisted by one bolt
Go
Verified
Shear stress in the bolt in terms of torque resisted by the n bolts
Go
Verified
Shear stress in the shaft in terms of torque transmitted by the shaft
Go
Verified
Torque resisted by one bolt in terms of load resisted by one bolt
Go
Verified
Torque resisted by one bolt in terms of shear stress in the bolt
Go
Verified
Torque transmitted by the shaft
Go
Verified
Total torque resisted by the n number of bolts
Go
Force
(12)
Verified
Braking force on the drum for simple band brake
Go
Verified
Maximum braking force acting at the front wheels(when brakes are applied to front wheels only)
Go
Verified
Maximum value of total braking force acting at the rear wheels(brake applied to rear wheels only)
Go
Verified
Normal force for shoe brake if line of action of tangential force passes above fulcrum(anti clock)
Go
Verified
Normal force for shoe brake if line of action of tangential force passes above fulcrum(clockwise)
Go
Verified
Normal force for shoe brake if line of action of tangential force passes below fulcrum(anti clock)
Go
Verified
Normal force for shoe brake if line of action of tangential force passes below fulcrum(clockwise)
Go
Verified
Normal force pressing the brake block on the wheel(shoe brake)
Go
Verified
Tangential braking force acting at the contact surface of the block and the wheel for shoe brake
Go
Verified
Tangential braking force if normal force pressing the brake block on the wheel is known
Go
Verified
Total braking force (in newtons) acting at the rear wheels(brake applied to rear wheels only)
Go
Verified
Total braking force acting at the front wheels(when brakes are applied to front wheels only)
Go
2 More Force Calculators
Go
Force
(5)
Verified
Bursting force due to fluid pressure
Go
Verified
Bursting force of cylinder in terms of stress due to fluid pressure
Go
Verified
Initial compressive force in the cylinder for length 'L'
Go
Verified
Initial tensile force in the wire for length 'L'
Go
Verified
Initial tensile force in wire for length 'L' in terms of length of cylinder
Go
Formula By I.S. Code For Mild Steel
(10)
Verified
Allowable axial compression stress for slenderness ratio b/w 0 to 160
Go
Verified
Allowable axial compression stress for slenderness ratio greater than 160
Go
Verified
Effective column length in terms of allowable axial compression stress
Go
Verified
Effective column length in terms of allowable axial compression stress(slenderness ratio>160)
Go
Verified
Least radius of gyration in terms of allowable axial compression stress
Go
Verified
Least radius of gyration in terms of allowable axial compression stress(slenderness ratio>160)
Go
Verified
Minimum yield stress for allowable axial compression stress for slenderness ratio b/w 0 to 160
Go
Verified
Slenderness ratio in terms of allowable axial compression stress
Go
Verified
Value obtained from secant formula in terms of allowable axial compression stress
Go
Verified
Value obtained from secant formula in terms of axial compression stress( slenderness ratio>160)
Go
Four Wire
(4)
Verified
Line Losses(2-Phase 4-Wire OS)
Go
Verified
Maximum Voltage(2-Phase 4-Wire OS)
Go
Verified
Power Transmitted(2-Phase 4-Wire OS)
Go
Verified
Volume Of Conductor Material(2-Phase 4-Wire OS)
Go
4 More Four Wire Calculators
Go
Four Wire
(3)
Verified
Area Of X-Section(3-Phase 4-Wire OS)
Go
Verified
Load Current(3-Phase 4-Wire OS)
Go
Verified
Volume Of Conductor Material(3-Phase 4-Wire OS)
Go
5 More Four Wire Calculators
Go
Frequency Measurement
(1)
Verified
Unknown Frequency using CRO
Go
Frequency Response
(3)
Created
Amplifier bandwidth in discrete-circuit amplifier
Go
Created
Amplifier bandwidth in integrated-circuit amplifier
Go
Created
Gain-bandwidth product of the amplifier
Go
Frequency Response of the CS Amplifier When R<sub>sig</sub> Is Low
(11)
Created
3-dB frequency of the CS amplifier when R
_{sig}
is low
Go
Created
Frequency at zero transmission of the CS amplifier
Go
Created
Gain bandwidth product
Go
Created
Gain bandwidth product of the CS amplifier
Go
Created
Gain bandwidth product of the high-frequency gain of the CS amplifier
Go
Created
Gate to drain current of the CS amplifier
Go
Created
Gate to drain current passing through C
_{gd}
in CS amplifier
Go
Created
Output voltage of CS amplifier when R
_{sig}
is low
Go
Created
Signal voltage of the CS amplifier when R
_{sig}
is low
Go
Created
Transfer function of the CS amplifier when R
_{sig}
is low
Go
Created
Voltage between the gate and source of the CS amplifier
Go
Fundamental Formulas
(5)
Verified
Hydro Power
Go
Verified
Phase current for balanced three-phase delta connection
Go
Verified
Phase voltage for balanced three-phase star connection
Go
Verified
Tidal power
Go
Verified
wind power
Go
Galilean Telescope
(1)
Created
Magnifying Power of a Galilean Telescope when Image forms at Infinity
Go
Governors
(19)
Verified
Angle b/w axis of radius of rotation and line joining a point on curve to origin given mass of ball
Go
Verified
Angle b/w the axis of radius of rotation and line joining a point on the curve to the origin O
Go
Verified
Corresponding radial force required at each ball for spring loaded governors
Go
Verified
Deflection of the center of the leaf spring in pickering governor
Go
Verified
Deflection of the center of the leaf spring in pickering governor if value of load is known
Go
Verified
Governor power
Go
Verified
Increased speed
Go
Verified
Mean equilibrium angular speed
Go
Verified
Mean equilibrium speed in r.p.m
Go
Verified
Moment of inertia of the Pickering governor cross-section about the neutral axis
Go
Verified
Sleeve load for decrease in speed value (taking friction into account)
Go
Verified
Sleeve load for increase in speed value (taking friction into account)
Go
Verified
Speed of the rotation in rpm
Go
Verified
The relation b/w controlling force and radius of rotation for the stability of governor
Go
Verified
The relation b/w controlling force and radius of rotation for the unstability of governor
Go
Verified
The relation between the controlling force and the radius of rotation for isochronous governors
Go
Verified
Total downward force on the sleeve in the Wilson-Hartnell governor
Go
Verified
Value of Controlling force for the decrease in speed
Go
Verified
Value of Controlling force for the increase in speed
Go
2 More Governors Calculators
Go
Gravitation
(6)
Created
Gravitational Field Intensity
Go
Created
Gravitational field intensity due to point mass
Go
Created
Gravitational potential
Go
Created
Gravitational Potential Energy
Go
Created
Time period of satellite
Go
Created
Universal Law of Gravitation
Go
Gravitational Field
(6)
Created
Gravitational field of a ring
Go
Created
Gravitational field of a ring when cosθ is given
Go
Created
Gravitational field of a thin circular disc
Go
Created
Gravitational field when point P is inside of non conducting solid sphere
Go
Created
Gravitational field when point P is outside of conducting solid sphere
Go
Created
Gravitational field when point P is outside of non conducting solid sphere
Go
Gravitational Potential
(6)
Created
Gravitational potential of a ring
Go
Created
Gravitational potential of a thin circular disc
Go
Created
Gravitational potential when point p is inside of conducting solid sphere
Go
Created
Gravitational potential when point p is inside of non conducting solid sphere
Go
Created
Gravitational potential when point p is outside of conducting solid sphere
Go
Created
Gravitational potential when point P is outside of non-conducting solid sphere
Go
Harley Oscillator
(2)
Verified
Effective Inductance
Go
Verified
Frequency of Oscillation of Hartley Oscillator
Go
Hartley Oscillator using Op-Amp
(2)
Verified
Frequency of Oscillation of Op-Amp
Go
Verified
Voltage Gain of Op-Amp
Go
Hays' Bridge
(3)
Verified
Value of Quality Factor of Hays' Bridge
Go
Verified
Value of Unknown Inductance
Go
Verified
Value of Unknown Resistance of Hays' bridge
Go
Helical Springs
(23)
Verified
Average load on spring
Go
Verified
Deflection in terms of the average load on spring
Go
Verified
Deflection of spring
Go
Verified
Deflection of spring in terms of stiffness of spring
Go
Verified
Deflection of spring in terms of work done on spring
Go
Verified
Maximum shear stress induced in the wire
Go
Verified
Maximum shear stress induced in the wire in terms of the twisting moment
Go
Verified
Modulus of rigidity in terms of deflection of spring
Go
Verified
Modulus of rigidity in terms of stiffness of the helical spring
Go
Verified
Modulus of rigidity in terms of strain energy stored by the spring
Go
Verified
Number of coils in terms of deflection of spring
Go
Verified
Number of coils in terms of strain energy stored by the spring
Go
Verified
Number of coils in terms of the total length of wire of spring
Go
Verified
Number of coils of helical spring in terms of stiffness of spring
Go
Verified
Stiffness of spring in terms of deflection of spring
Go
Verified
Stiffness of the helical spring
Go
Verified
Strain energy stored by the spring
Go
Verified
Total length of wire of helical spring in terms of the mean radius of spring roll
Go
Verified
Total length of wire of the helical spring
Go
Verified
Twisting moment in terms of maximum shear stress induced in the wire
Go
Verified
Twisting moment on the wire of the helical spring
Go
Verified
Work done on the spring in terms of axial load on spring
Go
Verified
Work done on the spring in terms of the average load
Go
High-Frequency Response of Differential Amplifiers
(15)
Created
Common-mode gain of the differential amplifier
Go
Created
Common-mode gain of the differential amplifier in terms of capacitance
Go
Created
Dominant pole frequency of the differential amplifier
Go
Created
First pole frequency of the differential amplifier
Go
Created
Frequency of the differential amplifier
Go
Created
Frequency of the differential amplifier in terms of the load resistance
Go
Created
Half frequency of the differential amplifier
Go
Created
Output voltage in terms of total impedance between the output node and ground
Go
Created
Pole frequency in terms of capacitance between gate and source
Go
Created
Pole frequency in terms of unity-gain frequency
Go
Created
Pole frequency of the Current-Mirror-Loaded MOS Amplifier
Go
Created
Short circuit transconductance of the current-mirror-loaded MOS amplifier
Go
Created
Short circuit transconductance of the differential amplifier
Go
Created
Zero frequency of the Current-Mirror-Loaded MOS Amplifier
Go
Created
Zero frequency of the Current-Mirror-Loaded MOS Amplifier in terms of unity-gain frequency
Go
High-Frequency Response of the CG Amplifier
(17)
Created
3-dB frequency of the CG amplifier
Go
Created
3-dB frequency of the CG amplifier in terms of the pole frequency
Go
Created
3-dB frequency of the CG amplifier in terms of time constant
Go
Created
First pole-frequency of the common-gate amplifier
Go
Created
Gate to drain resistance of the CG amplifier
Go
Created
Input resistance of the CG amplifier
Go
Created
Input resistance of the CG amplifier with a load resistance
Go
Created
Open-circuit time constant between gate and drain of the CG amplifier in terms of pole-frequency
Go
Created
Open-circuit time constant between gate and source of the CG amplifier
Go
Created
Open-circuit time constant between gate and source of the CG amplifier in terms of pole-frequency
Go
Created
Open-circuit time constant between the gate and drain of the Common-gate amplifier
Go
Created
Open-circuit time constant in high-frequency response of the CG amplifier
Go
Created
Output resistance of the CG amplifier
Go
Created
Resistance between gate and drain of the CG amplifier
Go
Created
Resistance between gate and source of the CG amplifier
Go
Created
Second pole-frequency of the CG amplifier
Go
Created
Signal current in the collector in terms of input signal
Go
High-Frequency Response of the CS and CE Amplifiers
(8)
Created
3-dB frequency of the bipolar cascode amplifier
Go
Created
Effective high-frequency time constant of the bipolar cascode amplifier
Go
Created
Finite output resistance of the bipolar cascode amplifier
Go
Created
Mid-band gain of the bipolar cascode amplifier
Go
Created
Output resistance at node 2 of the bipolar cascode amplifier
Go
Created
Resistance across capacitor of the bipolar cascode amplifier
Go
Created
Resistance across the collector-base junction of the bipolar cascode amplifier
Go
Created
Signal resistance of the bipolar cascode amplifier
Go
High-Frequency Response of the Source and Emitter Followers
(13)
Created
Break frequency of the source-follower
Go
Created
Break frequency of the source-follower case
Go
Created
Constant 1 of the source-follower transfer function
Go
Created
Constant 2 of the source-follower transfer function
Go
Created
Dominant pole-frequency of the source-follower
Go
Created
Maximum flat response of the source-follower case
Go
Created
Mid band gain of the source-follower
Go
Created
Output voltage of the emitter-follower case
Go
Created
Output voltage of the source-follower case
Go
Created
Source-follower transfer function
Go
Created
Total resistance in the source-follower case
Go
Created
Transfer function of the emitter-follower
Go
Created
Voltage between gate and source in the source and emitter follower
Go
Hoop Stress
(12)
Verified
Force due to circumferential stress in the thin cylindrical vessel
Go
Verified
Force due to fluid pressure in thin cylindrical vessel
Go
Verified
Hoop stress
Go
Verified
Hoop stress in terms of force due to circumferential stress in thin cylindrical vessel
Go
Verified
Internal diameter of a vessel in terms of Force due to fluid pressure in a thin cylindrical vessel
Go
Verified
Internal diameter of vessel in terms of hoop stress
Go
Verified
Internal pressure of fluid in a vessel in terms of the hoop stress
Go
Verified
Internal pressure of fluid in terms of Force due to fluid pressure in thin cylindrical vessel
Go
Verified
Length of the vessel in terms of Force due to fluid pressure in the thin cylindrical vessel
Go
Verified
Length of vessel in terms of force due to circumferential stress in thin cylindrical vessel
Go
Verified
Thickness of vessel in terms of hoop stress
Go
Verified
Vessel thickness in terms of force due to circumferential stress in a thin cylindrical vessel
Go
Hyperbola
(6)
Created
Eccentricity of hyperbola
Go
Created
Eccentricity of hyperbola when linear eccentricity is given
Go
Created
Focal parameter of the hyperbola
Go
Created
Latus Rectum of hyperbola
Go
Created
Length of conjugate axis of the hyperbola
Go
Created
Length of transverse axis of hyperbola
Go
3 More Hyperbola Calculators
Go
Impedance
(5)
Verified
Leakage Impedance For transformer Using Negative Sequence Voltage
Go
Verified
Leakage Impedance For Transformer Using Positive Sequence Voltage
Go
Verified
Leakage Impedance For Transformer Using Zero Sequence Current
Go
Verified
Leakage Impedance For transformer Using Zero Sequence Voltage
Go
Verified
Neutral Impedance For Star Connected Load Using Zero Sequence Voltage
Go
Impedance-1,2 & 3
(6)
Verified
Impedance-1 For Transmitted Coefficient Of Current-2 (line PL)
Go
Verified
Impedance-1 Using Reflected Current And Voltage (line PL)
Go
Verified
Impedance-2 Using Transmitted Coefficient Of Current-2 (line PL)
Go
Verified
Impedance-3 Using Reflected Coefficient Of Current (line PL)
Go
Verified
Impedance-3 Using Reflected Coefficient Of Voltage (line PL)
Go
Verified
Impedance-3 Using Transmitted Coefficient Of Current-3 (line PL)
Go
18 More Impedance-1,2 & 3 Calculators
Go
Incident Wave
(1)
Verified
Incident Current Using Reflected And Transmitted Current
Go
4 More Incident Wave Calculators
Go
Industrial Engineering
(7)
Verified
Maximum inventory manufacturing model
Go
Verified
Maximum stock out manufacturing model
Go
Verified
Period t1 manufacturing with shortage
Go
Verified
Period t2 for Manufacturing Model with Shortage
Go
Verified
Period t3 Manufacturing model
Go
Verified
Period t4 Manufacturing model
Go
Verified
Time taken for manufacturing model with the shortage
Go
45 More Industrial Engineering Calculators
Go
Initial Difference In Radii At The Junction Of A Compound Cylinder For Shrinkage
(21)
Verified
Constant 'a' for inner cylinder in terms of original difference of radii at junction
Go
Verified
Constant 'a' for the outer cylinder in terms of the original difference of radii at junction
Go
Verified
Decrease in outer radius of inner cylinder at the junction of the compound cylinder
Go
Verified
Decrease in outer radius of the inner cylinder at a junction in terms of constants of lame equation
Go
Verified
Hoop stress in terms of decrease in outer radius of inner cylinder
Go
Verified
Hoop stress in terms of increase in inner radius of outer cylinder
Go
Verified
Increase in inner radius of outer cylinder at junction in terms of constants of lame equation
Go
Verified
Increase in inner radius of outer cylinder at junction of compound cylinder
Go
Verified
Mass of the compound cylinder in terms of decrease in outer radius of inner cylinder
Go
Verified
Mass of the compound cylinder in terms of increase in inner radius of outer cylinder
Go
Verified
Modulus of elasticity in terms of decrease in outer radius of inner cylinder and constants
Go
Verified
Modulus of elasticity in terms of decrease in the outer radius of the inner cylinder
Go
Verified
Modulus of elasticity in terms of increase in inner radius of outer cylinder
Go
Verified
Modulus of elasticity in terms of increase in inner radius of outer cylinder and constants
Go
Verified
Modulus of elasticity in terms of original difference of radii at junction
Go
Verified
Original difference of radii at junction
Go
Verified
Radial pressure in terms of decrease in outer radius of inner cylinder
Go
Verified
Radial pressure in terms of increase in inner radius of outer cylinder
Go
Verified
Radius at junction of a compound cylinder in terms of decrease in outer radius of inner cylinder
Go
Verified
Radius at junction of compound cylinder in terms of increase in inner radius of outer cylinder
Go
Verified
Radius at junction of compound cylinder in terms of original difference of radii at junction
Go
Interference of waves of two intensities
(3)
Created
Intensity of constructive interference
Go
Created
Intensity of destructive interference
Go
Created
Interference of waves of two intensities
Go
Inverted R-2R
(1)
Verified
V
_{o}
of Inverted R-2R Linear Type DAC
Go
Isosceles Triangle
(2)
Created
Angle bisector of an isosceles triangle when equal sides are given
Go
Created
Angle bisector of an isosceles triangle when the unequal side is given
Go
13 More Isosceles Triangle Calculators
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Johnson's Parabolic Formula
(11)
Verified
Compressive yield stress according to Johnson's parabolic formula
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Verified
Compressive yield stress according to Johnson's parabolic formula in terms of slenderness ratio
Go
Verified
Constant depending on material of column according to Johnson's parabolic formula
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Verified
Constant depending on the material of the column according to terms slenderness ratio
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Verified
Critical load on column according to johnson's parabolic formula
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Verified
Critical load on column according to Johnson's parabolic formula in terms of slenderness ratio
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Verified
Cross-sectional area according to Johnson's parabolic formula in terms of slenderness ratio
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Verified
Cross-sectional area of column according to Johnson's parabolic formula
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Verified
Effective length of column according to Johnson's parabolic formula
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Verified
Least radius of gyration according to Johnson's parabolic formula
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Verified
Slenderness ratio according to Johnson's parabolic formula
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Kelvin's Bridge
(1)
Verified
Value of Unknown Resistance of Kelvin's Bridge
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2 More Kelvin's Bridge Calculators
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Kernel Of Hollow Rectangular Section
(10)
Verified
External length of hollow rectangular section if section modulus about yy axis is known
Go
Verified
External width of hollow rectangular section if section modulus about xx axis is known
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Verified
Internal length of hollow rectangular section if section modulus about the y-y axis is known
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Verified
Internal length of hollow rectangular section if section modulus about xx axis is known
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Verified
Internal width of hollow rectangular section if section modulus about xx axis is known
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Verified
Maximum eccentricity of load about x axis for hollow rectangular section
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Verified
Maximum eccentricity of load about y axis for hollow rectangular section
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Verified
Section modulus about xx axis for hollow rectangular section in terms length and width of section
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Verified
Section modulus about y-y axis for hollow rectangular section in terms of dimension of section
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Verified
Section modulus about yy axis for hollow rectangular section in terms of moment of inertia
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3 More Kernel Of Hollow Rectangular Section Calculators
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L2L Fault
(13)
Verified
a-phase Current (LLF)
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Verified
b-phase Current (LLF)
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Verified
b-phase Current Using Fault Impedance (LLF)
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Verified
b-phase Voltage (LLF)
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Verified
b-phase Voltage Using c-phase Current (LLF)
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Verified
c-phase Current(LLF)
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Verified
c-phase Voltage (LLF)
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Verified
Fault Impedance Using Positive Sequence Current (LLF)
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Verified
Negative Sequence Voltage (LLF)
Go
Verified
Positive Sequence Current (LLF)
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Verified
Positive Sequence Voltage (LLF)
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Verified
Zero Sequence Current(LLF)
Go
Verified
Zero Sequence Voltage(LLF)
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5 More L2L Fault Calculators
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Latus Rectum of an Ellipse
(1)
Created
Latus Rectum of an ellipse (a>b)
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4 More Latus Rectum of an Ellipse Calculators
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Leaf Spring
(21)
Verified
Central deflection of the leaf spring
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Verified
Central deflection of the leaf spring if the modulus of elasticity is given
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Verified
Load at one end in terms of bending moment at the center of the leaf spring
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Verified
Maximum bending stress developed in plates in terms of point load at the center
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Verified
Maximum bending stress developed in terms of central deflection of the leaf spring
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Verified
Maximum bending stress developed in terms of the radius of the plate to which they are bent
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Verified
Modulus of elasticity in terms of central deflection of the leaf spring
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Verified
Modulus of elasticity in terms of the radius of the plate to which they are bent
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Verified
Moment of inertia of each plate
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Verified
No. of plates in leaf spring in terms of the total resisting moment by n plates
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Verified
Number of plates in terms of maximum bending stress developed in the plates
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Verified
Point load acting at the center of spring in terms of maximum bending stress developed in plates
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Verified
Point load at center of spring load in terms of bending moment at the center of leaf spring
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Verified
Radius of the plate to which they are bent
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Verified
Radius of the plate to which they are bent in terms of central deflection of leaf spring
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Verified
Total resisting moment by n plates
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Verified
Total resisting moment by n plates in terms of bending moment on each plate
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Verified
Width of each plate in terms of bending moment on single plate
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Verified
Width of each plate in terms of the Moment of inertia of each plate
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Verified
Width of each plate in terms of the total resisting moment by n plates
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Verified
Width of plates in terms of maximum bending stress developed in the plates
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Length of Rectangle
(5)
Created
Length of a rectangle in terms of diagonal and angle between diagonal and breadth
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Created
Length of rectangle when area and breadth are given
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Created
Length of rectangle when diagonal and angle between two diagonal are given
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Created
Length of rectangle when diagonal and breadth are given
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Created
Length of rectangle when perimeter and breadth are given
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Length of Weld
(9)
Verified
Length of weld in terms of area of fillet weld and throat thickness(double fillet lap joint)
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Verified
Length of weld in terms of area of fillet weld and throat thickness(single fillet lap joint)
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Verified
Length of weld in terms of area of fillet weld(double fillet lap joint)
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Verified
Length of weld in terms of area of fillet weld(single fillet lap joint)
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Verified
Length of weld in terms of area of parallel fillet weld
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Verified
Length of weld in terms of area of parallel fillet weld and throat thickness
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Verified
Length of weld in terms of tensile force for butt weld joint
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Verified
Length of weld in terms of tensile strength of double fillet lap
Go
Verified
Length of weld in terms of tensile strength of single fillet lap joint
Go
Lift Of The Sleeve
(5)
Verified
Lift of the sleeve at a maximum radius of rotation(Hartnell governor)
Go
Verified
Lift of the sleeve at minimum radius of rotation(Hartnell governor)
Go
Verified
Lift of the sleeve corresponding to the deflection
Go
Verified
Total lift of the sleeve(Hartnell governor)
Go
Verified
Total lift of the sleeve(Hartnell governor) when maximum and the minimum lift is known
Go
Line Is Open Circuited
(3)
Verified
Incident Current Using Transmitted Current (Line OC)
Go
Verified
Reflected Current (Line OC)
Go
Verified
Transmitted Current (Line OC)
Go
4 More Line Is Open Circuited Calculators
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Line Is Short Circuited
(5)
Verified
Incident Current Using Reflected Current (Line SC)
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Verified
Incident Voltage Using Reflected Voltage (Line SC)
Go
Verified
Reflected Voltage (Line SC)
Go
Verified
Transmitted Current (Line SC)
Go
Verified
Transmitted Voltage (Line SC)
Go
3 More Line Is Short Circuited Calculators
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Line Losses
(8)
Verified
Length Using Line Losses (1-Phase 2-Wire US)
Go
Verified
Load Current Using Line Losses (1-Phase 2-Wire US)
Go
Verified
Maximum Voltage Using Line Losses (1-Phase 2-Wire US)
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Verified
Power Factor Using Line Losses (1-Phase 2-Wire US)
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Verified
Resistance Using Line Losses (1-Phase 2-Wire US)
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Verified
Resistivity Using Line Losses (1-Phase 2-Wire US)
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Verified
RMS Voltage Using Line Losses (1-Phase 2-Wire US)
Go
Verified
Volume Of Conductor Material Using Line Losses (1-Phase 2-Wire US)
Go
3 More Line Losses Calculators
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Line Losses
(1)
Verified
Area Of X-Section Using Line Losses (1-Phase 2-Wire Mid-Point OS)
Go
10 More Line Losses Calculators
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Line Losses
(1)
Verified
Area Of X-Section Using Line Losses (1-Phase 2-Wire OS)
Go
10 More Line Losses Calculators
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Line Losses
(3)
Verified
Area Of X-section Using Line Losses(Two-Wire One Conductor Earthed)
Go
Verified
Load Current Using Line Losses(DC Two-Wire OS)
Go
Verified
Resistivity Using Line Losses(Two-Wire One Conductor Earthed)
Go
4 More Line Losses Calculators
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Line Losses
(3)
Verified
Length Of Wire Using Line Losses(Two-Wire Mid-point Earthed)
Go
Verified
Power Transmitted Using Line Losses(Two-Wire Mid-point Earthed)
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Verified
Resistance Using Line Losses(Two-Wire Mid-point Earthed)
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4 More Line Losses Calculators
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Line Losses
(2)
Verified
Load Current Using Line Losses(DC 3-wire)
Go
Verified
Power Transmitted Using Line Losses(DC 3-wire)
Go
5 More Line Losses Calculators
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Line Losses
(4)
Verified
Angle Using Line Losses (1-phase 2-wire Mid-point Earthed)
Go
Verified
Area Using Line Losses (1-phase 2-wire Mid-point Earthed)
Go
Verified
Power Factor Using Line Losses (1-phase 2-wire Mid-point Earthed)
Go
Verified
Resistivity Using Line Losses (1-phase 2-wire Mid-point Earthed)
Go
7 More Line Losses Calculators
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Line With Parallel Loads
(9)
Verified
Incident Current Using Impedance-1 (line PL)
Go
Verified
Incident Current Using Transmitted Coefficient Of Current-2 (line PL)
Go
Verified
Incident Voltage 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 Coefficient Of Voltage (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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Linear eccentricity of an Ellipse
(2)
Created
Linear eccentricity of an ellipse when eccentricity and semimajor axis are given
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Created
Linear eccentricity of ellipse when eccentricity and major axis are given
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1 More Linear eccentricity of an Ellipse Calculators
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Linear Ramp Type
(4)
Verified
Maximum Number of Clock Pulses
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Verified
Total Conversion Time of Linear Ramp Type
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Verified
Value of T
_{1}
Go
Verified
Value of T
_{2}
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Load Current
(4)
Verified
Constant Using Load Current (1-Phase 2-Wire US)
Go
Verified
Length Using Load Current (1-Phase 2-Wire US)
Go
Verified
Resistivity Using Load Current (1-Phase 2-Wire US)
Go
Verified
Volume Of Conductor Material Using Load Current (1-Phase 2-Wire US)
Go
6 More Load Current Calculators
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Load Current
(1)
Verified
Area Of X-Section Using Load Current (1-Phase 2-Wire Mid-Point OS)
Go
10 More Load Current Calculators
Go
Load Current
(1)
Verified
Power Factor Using Load Current (1-phase 3-wire US)
Go
4 More Load Current Calculators
Go
Load Current
(3)
Verified
Angle Using Load Current (2-phase 4-wire US)
Go
Verified
Power Transmitted Using Load Current (2-phase 4-wire US)
Go
Verified
Resistivity Using Load Current (2-phase 4-wire US)
Go
6 More Load Current Calculators
Go
Load Current
(1)
Verified
Angle Using Load Current (1-phase 2-wire Mid-point Earthed)
Go
5 More Load Current Calculators
Go
Load End Capacitance
(2)
Verified
B Parameter (LEC)
Go
Verified
Impedance Using A Parameter (LEC)
Go
5 More Load End Capacitance Calculators
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Load Impedance Is Same As Characteristic Impedance
(4)
Verified
Incident Current Using Transmitted Current (Z
_{L}
=Z
_{C}
)
Go
Verified
Reflected Current (Z
_{L}
=Z
_{C}
)
Go
Verified
Transmitted Current (Z
_{L}
=Z
_{C}
)
Go
Verified
Transmitted Voltage (Z
_{L}
=Z
_{C}
)
Go
5 More Load Impedance Is Same As Characteristic Impedance Calculators
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Load IS Open Circuited
(1)
Verified
Incident Voltage Using Reflected Voltage (Load OC)
Go
6 More Load IS Open Circuited Calculators
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Load Is Short Circuited
(4)
Verified
Incident Voltage Using Reflected Voltage (Load SC)
Go
Verified
Load Impedance (Load SC)
Go
Verified
Transmitted Current (Load SC)
Go
Verified
Transmitted Voltage (Load SC)
Go
4 More Load Is Short Circuited Calculators
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Longitudinal stress
(10)
Verified
Hoop stress in a thin cylindrical vessel in terms of longitudinal stress
Go
Verified
Internal diameter of vessel in terms of Longitudinal stress in the cylindrical vessel material
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Verified
Internal diameter of vessel in terms of resisting force on thin cylindrical vessel
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Verified
Internal pressure of fluid in terms of Longitudinal stress in the cylindrical vessel material
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Verified
Longitudinal stress in the cylindrical vessel material
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Verified
Longitudinal stress in the material in terms of resisting force on a thin cylindrical vessel
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Verified
Longitudinal stress in thin cylindrical vessel in terms of hoop stress
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Verified
Resisting force on a thin cylindrical vessel
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Verified
Thickness of cylindrical vessel in terms of resisting force on thin cylindrical vessel
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Verified
Thickness of the vessel in terms of Longitudinal stress in the cylindrical vessel material
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Losses
(4)
Verified
Receiving End Angle Using Losses (STL)
Go
Verified
Receiving End Current Using Losses(STL)
Go
Verified
Resistance Using Losses (STL)
Go
Verified
Sending End Voltage Using Losses (STL)
Go
3 More Losses Calculators
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Losses
(1)
Verified
Sending End Current Using Losses(ECM)
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2 More Losses Calculators
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Magnetic Measurements