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Calculators Created by Chilvera Bhanu Teja
Chilvera Bhanu Teja
Institute of Aeronautical Engineering
(IARE)
,
Hyderabad
299
Formulas Created
212
Formulas Verified
93
Across Categories
List of Calculators by Chilvera Bhanu Teja
Following is a combined list of all the calculators that have been created and verified by Chilvera Bhanu Teja. Chilvera Bhanu Teja has created 299 and verified 212 calculators across 93 different categories till date.
Endurance Limit Approximate Estimation in Design
(5)
Verified
Endurance Limit of Rotating Beam Specimen of Steel
Go
Verified
Endurance Limit Stress of Rotating Beam Specimen of Aluminium Alloys
Go
Verified
Endurance Limit Stress of Rotating Beam Specimen of Cast Aluminium Alloys
Go
Verified
Endurance Limit Stress of Rotating Beam Specimen of Cast Iron or Steels
Go
Verified
Stress Amplitude for Fluctuating load given Maximum Stress and Minimum Stress
Go
10 More Endurance Limit Approximate Estimation in Design Calculators
Go
Maximum Principal Stress Theory
(4)
Verified
Allowable Stress in Brittle Material under Compressive Loading
Go
Verified
Allowable Stress in Brittle Material under Tensile Loading
Go
Verified
Allowable Stress in Ductile Material under Compressive Loading
Go
Verified
Allowable Stress in Ductile Material under Tensile Loading
Go
Maximum Shear Stress Theory
(2)
Verified
Shear Yield Strength given Tensile Yield Strength
Go
Verified
Tensile Yield Strength given Shear Yield Strength
Go
1 More Maximum Shear Stress Theory Calculators
Go
Rectangular Plate against Fluctuating Loads
(1)
Verified
Highest Value of Actual Stress near Discontinuity
Go
5 More Rectangular Plate against Fluctuating Loads Calculators
Go
Soderberg and Goodman Lines
(11)
Verified
Goodman Line Amplitude Stress
Go
Verified
Goodman Line Endurance Limit
Go
Verified
Goodman Line Mean Stress
Go
Verified
Goodman Line Ultimate Tensile Strength
Go
Verified
Slope of Line OE in Modified Goodman Diagram given Bending Amplitude and Mean Bending Moment
Go
Verified
Slope of Line OE in Modified Goodman Diagram given Force Amplitude and Mean Force
Go
Verified
Slope of Line OE in Modified Goodman Diagram given Stress Amplitude and Mean Stress
Go
Verified
Soderberg Line Amplitude Stress
Go
Verified
Soderberg Line Endurance Limit
Go
Verified
Soderberg Line Mean stress
Go
Verified
Soderberg Line Tensile Yield Strength
Go
4 More Soderberg and Goodman Lines Calculators
Go
After Collision
(2)
Created
Total kinetic energy of two bodies after impact
Go
Created
Velocity of separation after impact
Go
11 More After Collision Calculators
Go
Basics of Friction Clutches
(10)
Verified
Axial Force on Clutch given Friction Radius
Go
Verified
Coefficient of Friction of Clutch given Friction Radius
Go
Verified
Friction Radius of Clutch given Friction Torque
Go
Verified
Friction Radius of Clutch given Outer and Inner Diameter
Go
Verified
Friction Torque on Clutch given Friction Radius
Go
Verified
Inner Diameter of Clutch given Friction Radius
Go
Verified
Outer Diameter of Clutch given Friction Radius
Go
Verified
Rated Torque of Clutch given Torque Capacity
Go
Verified
Service Factor for Clutch
Go
Verified
Torque Capacity of Clutch
Go
Before Collision
(1)
Created
Total Kinetic Energy of Two Bodies before Impact
Go
7 More Before Collision Calculators
Go
Butt Joints
(3)
Verified
Degree of Restraint (Butt joints)
Go
Verified
Shrinkage of Unrestrained Joint from given Shrinkage of Restrained Butt Joint
Go
Verified
Transverse Shrinkage of Restrained Joint
Go
11 More Butt Joints Calculators
Go
Choke Area
(2)
Verified
Effective Metal Head for Bottom Gate
Go
Verified
Effective Metal Head for Parting Gate
Go
4 More Choke Area Calculators
Go
Climbing Flight
(1)
Verified
Flight path angle at given rate of climb
Go
15 More Climbing Flight Calculators
Go
Combustion Chamber
(2)
Created
Heat Added in Gas Turbine Combustion
Go
Created
Heat Added in Gas Turbine Combustion given Temperature
Go
Compressor
(14)
Created
Compressor work
Go
Created
Compressor Work in Gas Turbine given Temperature
Go
Created
Degree of Reaction for Compressor
Go
Created
Efficiency of Compressor given Enthalpy
Go
Created
Efficiency of compressor in actual gas turbine cycle
Go
Created
Impeller Outlet Diameter
Go
Created
Isentropic Efficiency of Compression Machine
Go
Created
Mean Diameter of Impeller
Go
Created
Minimum Temperature Ratio
Go
Created
Shaft Work in Compressible Flow Machines
Go
Created
Shaft Work in Compressible Flow Machines neglecting Inlet and Exit Velocities
Go
Created
Tip Velocity of Impeller given Hub Diameter
Go
Created
Tip Velocity of Impeller given Mean Diameter
Go
Created
Work Required to Drive Compressor Including Mechanical Losses
Go
Constant Pressure Theory
(3)
Verified
Friction Torque on Cone Clutch from Constant Pressure Theory
Go
Verified
Friction Torque on Cone Clutch from Constant Pressure Theory given Axial Force
Go
Verified
Friction Torque on Multiple Disk Clutch from Constant Pressure Theory
Go
9 More Constant Pressure Theory Calculators
Go
Constant Wear Theory
(7)
Verified
Axial Force on Clutch from Constant Wear Theory given Friction Torque
Go
Verified
Axial Force on Cone Clutch from Constant Wear Theory given Permissible Pressure Intensity
Go
Verified
Axial Force on Cone Clutch from Constant Wear Theory given Pressure
Go
Verified
Coefficient of Friction of Clutch from Constant Wear Theory given Axial Force
Go
Verified
Friction Torque on Clutch from Constant Wear Theory given Diameters
Go
Verified
Friction Torque on Cone Clutch from Constant Wear Theory given Axial Force
Go
Verified
Friction Torque on Multiple Disk Clutch from Constant Wear Theory
Go
6 More Constant Wear Theory Calculators
Go
Curvilinear Motion
(7)
Created
Angular Acceleration given Linear Acceleration
Go
Created
Angular Displacement given Angular Acceleration
Go
Created
Angular Velocity given Linear Velocity
Go
Created
Angular Velocity of Body Moving in Circle
Go
Created
Average Angular Velocity
Go
Created
Final Angular Velocity
Go
Created
Initial Angular Velocity
Go
4 More Curvilinear Motion Calculators
Go
Design of Shaft for Torsional Moment
(5)
Verified
Angle of twist of shaft in radians given torque, length of shaft, polar moment of inertia
Go
Verified
Polar moment of inertia of circular cross section
Go
Verified
Polar moment of inertia of hollow circular cross-section
Go
Verified
Power transmitted by shaft given speed of shaft and torque
Go
Verified
Torsional shear stress in shaft due to torsional moment
Go
4 More Design of Shaft for Torsional Moment Calculators
Go
Design Parameters
(4)
Verified
Length of Hub of Bushed Pin Coupling given Diameter of Driving Shaft
Go
Verified
Thickness of Output Flange of Coupling
Go
Verified
Thickness of Protective Rim of Coupling
Go
Verified
Torque Transmitted by Bushed Pin Coupling given Force
Go
6 More Design Parameters Calculators
Go
Diameter of Bushed Pin Flexible Coupling Components
(9)
Verified
Diameter of Driving Shaft of Coupling given Diameter of Pin
Go
Verified
Diameter of Driving Shaft of Coupling given Length of Hub of Bushed Pin Coupling
Go
Verified
Diameter of Driving Shaft of Coupling given Outside Diameter of Hub of Bushed Pin Coupling
Go
Verified
Diameter of Driving Shaft of Coupling given Thickness of Output Flange
Go
Verified
Diameter of Driving Shaft of Coupling given Thickness of Protective Rim
Go
Verified
Diameter of Pin of Coupling
Go
Verified
Outside Diameter of Hub of Bushed pin Coupling given Diameter of Driving Shaft
Go
Verified
Pitch Circle Diameter of Bushes or Pins of Coupling
Go
Verified
Pitch Circle Diameter of Pins of Coupling
Go
3 More Diameter of Bushed Pin Flexible Coupling Components Calculators
Go
Double Acting Pumps
(1)
Verified
Work Done by Reciprocating Pumps
Go
14 More Double Acting Pumps Calculators
Go
During Collision
(4)
Created
Loss of kinetic energy during impact
Go
Created
Velocity of approach
Go
Created
Velocity of approach in indirect impact of body with fixed plane
Go
Created
Velocity of separation in indirect impact of body with fixed plane
Go
4 More During Collision Calculators
Go
Dynamics of Spur Gear
(11)
Verified
Beam Strength of Gear Tooth
Go
Verified
Deformation factor of Gear
Go
Verified
Effective load on Gear Tooth
Go
Verified
Permissible Bending Stress in Gear Teeth
Go
Verified
Pitch Line Velocity of Gear
Go
Verified
Radial Force of Gear given Tangential Force and Pressure Angle
Go
Verified
Resultant Force on Gear
Go
Verified
Tangential Force on Gear given Pressure angle and Resultant Force
Go
Verified
Tangential Force on Gear given Radial Force and Pressure Angle
Go
Verified
Tangential Force on Gear given Torque and Pitch Circle Diameter
Go
Verified
Torque Transmitted by Gear given Tangential Force and Pitch Circle Diameter
Go
17 More Dynamics of Spur Gear Calculators
Go
Efficiency Metrics
(10)
Created
Effective speed ratio
Go
Created
Isentropic Efficiency of Expansion Machine
Go
Created
Net work output in simple gas turbine cycle
Go
Created
Overall Efficiency of Propulsive System
Go
Created
Propulsive efficiency
Go
Created
Propulsive efficiency given aircraft velocity
Go
Created
Propulsive Efficiency given Effective Speed Ratio
Go
Created
Propulsive power
Go
Created
Thermal Efficiency of Jet Engines given Effective Speed Ratio
Go
Created
Transmission Efficiency given Output and Input of Transmission
Go
2 More Efficiency Metrics Calculators
Go
Elastic Bodies
(2)
Created
Coefficient of restitution of freely falling body having height and bounce
Go
Created
Coefficient of restitution of two colliding bodies
Go
Elements of Vibration
(14)
Created
Angular Frequency
Go
Created
Angular Frequency given Time Period of Motion
Go
Created
Damping Force
Go
Created
Displacement of Body in Simple Harmonic Motion
Go
Created
Frequency given Spring Constant and Mass
Go
Created
Inertia Force
Go
Created
Magnitude of Acceleration of Body in Simple Harmonic Motion
Go
Created
Magnitude of Acceleration of Body in Simple Harmonic Motion given Displacement
Go
Created
Magnitude of Maximum Acceleration of Body in Simple Harmonic Motion
Go
Created
Maximum Velocity of Body in Simple Harmonic Motion
Go
Created
Period of Motion in Simple Harmonic Motion
Go
Created
Spring Force
Go
Created
Velocity of Body in Simple Harmonic Motion
Go
Created
Work Done by Harmonic Force
Go
Flat Plate against Fluctuating Loads
(3)
Verified
Mean Stress for Fluctuating Load
Go
Verified
Theoretical Stress Concentration Factor
Go
Verified
Theoretical Stress Concentration Factor for Elliptical Crack
Go
6 More Flat Plate against Fluctuating Loads Calculators
Go
Flow Parameters
(3)
Verified
Acceleration of liquid in pipe
Go
Verified
Mass of water in pipe
Go
Verified
Velocity of Liquid in Pipe
Go
8 More Flow Parameters Calculators
Go
Fluid Parameters
(5)
Verified
Cross sectional area of piston given volume of liquid
Go
Verified
Darcy-Weisbach equation
Go
Verified
Length of Stroke given Volume of Liquid
Go
Verified
Power Required to Drive Pump
Go
Verified
Slip of Pump
Go
8 More Fluid Parameters Calculators
Go
FOS and Moduli
(2)
Created
Factor of Safety
Go
Created
Modulus of Elasticity given Normal Stress
Go
4 More FOS and Moduli Calculators
Go
Free Vibration of Single DOF Undamped Torsional System
(3)
Created
Amount of Amplitude of Motion Reduced in Each Successive Cycle in Coulomb Damping
Go
Created
Restoring Torque using Torsional Spring constant and Angle of Twist
Go
Created
Torsional Spring Constant given Torque and Angle of Twist
Go
Gear Pumps
(4)
Verified
Theoretical Discharge given Outer and Inner Gear Diameter
Go
Verified
Theoretical Discharge of External Gear Pump
Go
Verified
Theoretical Volumetric Displacement of External Gear Pump
Go
Verified
Width of Rotor given Volumetric Displacement
Go
8 More Gear Pumps Calculators
Go
Geometric and Flow Parameters
(6)
Verified
Leakage of Liquid given Volumetric Efficiency and Discharge
Go
Verified
Mechanical efficiency given Specific Weight of Liquid
Go
Verified
Net positive suction head
Go
Verified
Torque at outlet
Go
Verified
Vane efficiency
Go
Verified
Volume of liquid at inlet
Go
13 More Geometric and Flow Parameters Calculators
Go
Heat Input in Welding
(6)
Verified
Melting Efficiency
Go
Verified
Net Heat per Unit Volume available for Arc Welding
Go
Verified
Net Heat Supplied to Joint
Go
Verified
Rated Duty Cycle given Actual Duty Cycle
Go
Verified
Required Duty cycle for arc welding
Go
Verified
Total heat generated in resistance welding
Go
5 More Heat Input in Welding Calculators
Go
Hub and Flange Dimensions
(7)
Verified
Diameter of Spigot and Recess of Rigid Flange Coupling
Go
Verified
Length of Hub of Rigid Flange Coupling given Diameter of Driving Shaft
Go
Verified
Outside Diameter of Flange of Rigid Flange Coupling
Go
Verified
Outside Diameter of Hub of Rigid Flange Coupling given Diameter of Driving Shaft
Go
Verified
Pitch Circle Diameter of Bolts of Rigid Flange Coupling
Go
Verified
Thickness of flanges of Rigid Flange Coupling
Go
Verified
Thickness of Protecting Rim of Rigid Flange Coupling
Go
Hydraulic Accumulator
(3)
Verified
Annular Area of Differential Hydraulic Accumulator
Go
Verified
Total Weight of Ram of Hydraulic Accumulator
Go
Verified
Work Done in Lifting Ram of Hydraulic Accumulator
Go
10 More Hydraulic Accumulator Calculators
Go
Hydraulic Linear Actuators
(5)
Verified
Area of Piston given Force and Pressure
Go
Verified
Discharge during Extension
Go
Verified
Force during Retraction
Go
Verified
Power Developed during Extension
Go
Verified
Velocity of Piston during Extension
Go
5 More Hydraulic Linear Actuators Calculators
Go
Hydraulic Motors
(6)
Verified
Actual Discharge given Volumetric Efficiency
Go
Verified
Pressure of Liquid Entering Motor
Go
Verified
Theoretical Discharge given Volumetric Efficiency
Go
Verified
Theoretical Torque Developed
Go
Verified
Theoretical Volumetric Displacement given Torque and Pressure
Go
Verified
Volumetric Efficiency of Motor given Theoretical and Actual Discharge
Go
6 More Hydraulic Motors Calculators
Go
Hydraulic Torque Converter
(4)
Verified
Efficiency of torque convertor
Go
Verified
Hydraulic Torque Convertor - Power Input
Go
Verified
Hydraulic Torque Convertor - Power Output
Go
Verified
Torque transmitted to turbine shaft of torque converter
Go
Hydraulic Turbines
(2)
Verified
Unit power
Go
Verified
Unit speed of turbomachine
Go
5 More Hydraulic Turbines Calculators
Go
Impeller Parameters
(3)
Verified
Impeller radius at outlet given outlet tangential velocity
Go
Verified
Tangential velocity of impeller at outlet
Go
Verified
Tangential Velocity of Impeller at Outlet using Angular Velocity
Go
7 More Impeller Parameters Calculators
Go
Inlets
(2)
Created
Inlet drag
Go
Created
Kinetic Energy of Air at Inlet
Go
2 More Inlets Calculators
Go
Ironing Operation
(1)
Verified
Average of Tensile Strength before and after Ironing
Go
3 More Ironing Operation Calculators
Go
Laws of Motion
(14)
Created
Downward Force due to Mass of Lift, when Lift is Moving Upwards
Go
Created
Final Momentum
Go
Created
Force Exerted by Mass Carried by Lift on its Floor, when Lift is Moving Upwards
Go
Created
Initial Momentum
Go
Created
Momentum
Go
Created
Net Downward Force, when Lift is Moving Downwards
Go
Created
Net Upward Force on Lift, when Lift is Moving Upwards
Go
Created
Normal Reaction on Inclined Plane due to Mass of Body
Go
Created
Rate of Change of Momentum given Acceleration and Mass
Go
Created
Rate of Change of Momentum given Initial and Final Velocities
Go
Created
Reaction of Lift when it is Moving Downwards
Go
Created
Reaction of Lift when it is Moving Upwards
Go
Created
Tension in Cable when Lift is Moving Upwards with Mass
Go
Created
Velocity of Body given Momentum
Go
Lift and Drag Polar
(1)
Verified
Parasite Drag Coefficient at zero lift
Go
20 More Lift and Drag Polar Calculators
Go
Longitudinal and Lateral Strain
(2)
Created
Lateral Strain using Poisson's Ratio
Go
Created
Longitudinal Strain using Poisson's Ratio
Go
1 More Longitudinal and Lateral Strain Calculators
Go
Machine Design Characteristics
(10)
Created
Efficiency of Machine given Mechanical Advantage and Velocity Ratio
Go
Created
Effort Required by Machine to Overcome Resistance to Get Work Done
Go
Created
Frictional Effort Lost
Go
Created
Ideal Effort given Load and Velocity Ratio
Go
Created
Ideal Load given Velocity Ratio and Effort
Go
Created
Load Lifted given Effort and Mechanical Advantage
Go
Created
Mechanical Advantage given Load and Effort
Go
Created
Useful Work Output of Machine
Go
Created
Velocity Ratio given Distance Moved due to Effort and Distance Moved due to Load
Go
Created
Work Done by Effort
Go
Manometer Parameter
(3)
Verified
Manometric head given head imparted by impeller if loss of head in pump is zero
Go
Verified
Manometric head given static head, friction losses in suction and delivery pipes
Go
Verified
Manometric Head using Static Head and Losses in Pipes
Go
6 More Manometer Parameter Calculators
Go
Mass Moment of Inertia
(22)
Created
Mass Moment of Inertia of Circular Plate about x-axis Passing through Centroid
Go
Created
Mass Moment of Inertia of Circular Plate about y-axis Passing through Centroid
Go
Created
Mass Moment of Inertia of Circular Plate about z-axis through Centroid, Perpendicular to Plate
Go
Created
Mass Moment of Inertia of Cone about x-axis Passing through Centroid, Perpendicular to Base
Go
Created
Mass Moment of Inertia of Cone about y-axis Perpendicular to Height, Passing through Apex Point
Go
Created
Mass Moment of Inertia of Cuboid about x-axis Passing through Centroid, Parallel to Length
Go
Created
Mass Moment of Inertia of Cuboid about y-axis Passing through Centroid
Go
Created
Mass Moment of Inertia of Cuboid about z-axis Passing through Centroid
Go
Created
Mass Moment of Inertia of Rectangular Plate about x-axis through Centroid, Parallel to Length
Go
Created
Mass Moment of Inertia of Rectangular Plate about y-axis through Centroid, Parallel to Breadth
Go
Created
Mass Moment of Inertia of Rectangular Plate about z-axis through Centroid, Perpendicular to Plate
Go
Created
Mass Moment of Inertia of Rod about y-axis Passing through Centroid, Perpendicular to Length of Rod
Go
Created
Mass Moment of Inertia of Rod about z-axis Passing through Centroid, Perpendicular to Length of Rod
Go
Created
Mass Moment of Inertia of Solid Cylinder about x-axis through Centroid, Perpendicular to Length
Go
Created
Mass Moment of Inertia of Solid Cylinder about y-axis through Centroid, Parallel to Length
Go
Created
Mass Moment of Inertia of Solid Cylinder about z-axis through Centroid, Perpendicular to Length
Go
Created
Mass Moment of Inertia of Solid Sphere about x-axis Passing through Centroid
Go
Created
Mass Moment of Inertia of Solid Sphere about y-axis Passing through Centroid
Go
Created
Mass Moment of Inertia of Solid Sphere about z-axis Passing through Centroid
Go
Created
Mass Moment of Inertia of Triangular Plate about x-axis Passing through Centroid, Parallel to Base
Go
Created
Mass Moment of Inertia of Triangular Plate about y-axis Passing through Centroid, Parallel to Height
Go
Created
Mass Moment of Inertia of Triangular Plate about z-axis through Centroid, Perpendicular to Plate
Go
Mass of Solids
(6)
Created
Mass of Cone
Go
Created
Mass of Cuboid
Go
Created
Mass of Rectangular Plate
Go
Created
Mass of Solid Cylinder
Go
Created
Mass of Solid Sphere
Go
Created
Mass of Triangular Plate
Go
Mechanics and Statistics of Materials
(14)
Created
Inclination of Resultant of Two Forces Acting on Particle
Go
Created
Moment of Couple
Go
Created
Moment of Force
Go
Created
Moment of inertia given radius of gyration
Go
Created
Moment of inertia of circle about diametrical axis
Go
Created
Radius of gyration given moment of inertia and area
Go
Created
Resolution of Force with Angle along Horizontal Direction
Go
Created
Resolution of Force with Angle along Vertical Direction
Go
Created
Resultant of Two Forces Acting on Particle at 0 Degrees
Go
Created
Resultant of Two Forces Acting on Particle at 180 Degrees
Go
Created
Resultant of Two Forces Acting on Particle at 90 Degrees
Go
Created
Resultant of Two Forces acting on Particle with Angle
Go
Created
Resultant of Two like Parallel Forces
Go
Created
Resultant of Two Unlike Parallel Forces Unequal in Magnitude
Go
Moment of Inertia in Solids
(7)
Created
Moment of inertia of hollow circle about diametrical axis
Go
Created
Moment of Inertia of Hollow Rectangle about Centroidal Axis x-x Parallel to Breadth
Go
Created
Moment of inertia of rectangle about centroidal axis along x-x parallel to breadth
Go
Created
Moment of inertia of rectangle about centroidal axis along y-y parallel to length
Go
Created
Moment of inertia of semicircular section about its base
Go
Created
Moment of inertia of semicircular section through center of gravity, parallel to base
Go
Created
Moment of inertia of triangle about centroidal axis x-x parallel to base
Go
Motion under Acceleration
(11)
Created
Average Velocity
Go
Created
Displacement of Particle
Go
Created
Distance Traveled by Particle given Average Velocity
Go
Created
Distance Travelled by Particle
Go
Created
Distance Travelled in n Seconds
Go
Created
Distance Travelled in n-1 Seconds
Go
Created
Distance Travelled in nth Second
Go
Created
Final Velocity given Displacement, Uniform Acceleration and Initial Velocity of Particle
Go
Created
Initial Velocity given Displacement, Uniform Acceleration and Final Velocity of Particle
Go
Created
Time Taken by Particle to Change its Initial Velocity to Final Velocity
Go
Created
Velocity of Particle after Certain Time
Go
Motion under Force of Gravity
(5)
Created
Distance Travelled in Free Fall under Gravity given Initial Velocity and Time
Go
Created
Distance Travelled when Particle is Projected Upwards using Initial Velocity and Time
Go
Created
Final Velocity in Free Fall under Gravity given Initial Velocity and Displacement
Go
Created
Final Velocity in Free Fall under Gravity given Initial Velocity and Time
Go
Created
Final Velocity when Particle is Projected Upwards using Initial Velocity and Time
Go
Normal Stress
(6)
Created
Normal Stress across Oblique Section
Go
Created
Normal Stress for Principal Planes at Angle of 0 Degrees given Major and Minor Tensile Stress
Go
Created
Normal Stress for Principal Planes at Angle of 90 degrees
Go
Created
Normal Stress for Principal Planes when Planes are at Angle of 0 Degree
Go
Created
Normal Stress on Oblique Section given Stress in Perpendicular Directions
Go
Created
Normal Stress using Obliquity
Go
2 More Normal Stress Calculators
Go
Notch Sensitivity for Fluctuating Loads
(5)
Verified
Fatigue Stress Concentration Factor
Go
Verified
Fatigue Stress Concentration Factor given Notch Sensitivity Factor
Go
Verified
Notch Sensitivity Factor
Go
Verified
Notch Sensitivity Factor given Fatigue Stress Concentration Factor
Go
Verified
Theoretical Stress for Fluctuating Load
Go
Nozzle
(6)
Created
Discharge Coefficient given Flow Area
Go
Created
Discharge Coefficient given Mass Flow
Go
Created
Ideal Exhaust Velocity given Enthalpy Drop
Go
Created
Jet velocity given temperature drop
Go
Created
Kinetic Energy of Exhaust Gases
Go
Created
Velocity Coefficient
Go
2 More Nozzle Calculators
Go
Number of Elements
(1)
Verified
Number of Bushes or Pins of Bushed Pin Coupling given Torque
Go
1 More Number of Elements Calculators
Go
Others and Extra
(1)
Created
Work Done by Roots Blower
Go
20 More Others and Extra Calculators
Go
Parameters of Spur Gear
(17)
Verified
Addendum Circle Diameter of Small Size Gear given Addendum
Go
Verified
Addendum Circle Diameter of Small Size Gear given Module and Number of Teeth
Go
Verified
Dedendum Circle Diameter of Small Size Gear given Dedendum
Go
Verified
Dedendum Circle Diameter of Small Size Gear given Number of Teeth and Module
Go
Verified
Error in Gear
Go
Verified
Error in Gear system
Go
Verified
Error in Pinion
Go
Verified
Form Factor of Gear given Deformation Factor
Go
Verified
Gear Ratio given Number of Teeth
Go
Verified
Gear Ratio given Speed
Go
Verified
Inner Diameter of Rim of Large Size Gear
Go
Verified
Length of Gear Tooth
Go
Verified
Lewis Form Factor of Gear Tooth
Go
Verified
Module of Gear given Beam Strength and Lewis Form Factor
Go
Verified
Pitch Circle Diameter of Large Size Gear
Go
Verified
Pitch Circle Diameter of Small Size Gear
Go
Verified
Thickness of Rim of Large Size Gear
Go
23 More Parameters of Spur Gear Calculators
Go
Permeability Number
(1)
Verified
Ranginess Factor
Go
10 More Permeability Number Calculators
Go
Piston Pumps
(16)
Verified
Actual Torque Developed in Piston Pumps
Go
Verified
Angle of Swash Plate Inclination given Volumetric Displacement
Go
Verified
Efficiency of Jet Pump
Go
Verified
Mechanical Efficiency given Theoretical and Actual Power Delivered
Go
Verified
Mechanical Efficiency given Theoretical and Actual Torque
Go
Verified
Overall Efficiency given Actual and Theoretical Discharge
Go
Verified
Overall Efficiency of Piston Pump
Go
Verified
Piston Pump Constant K
Go
Verified
Stroke Length of Axial Piston Pump
Go
Verified
Stroke Length of Piston Pump given Volumetric Displacement
Go
Verified
Swash Plate Inclination with Axis of Cylinder
Go
Verified
Tan of Angle of Inclination of Swash Plate
Go
Verified
Tan of Angle of Swash Plate Inclination given Volumetric Displacement
Go
Verified
Theoretical Discharge given Angular Speed of Driving Member of Hydraulic Pump
Go
Verified
Theoretical Power of Piston Pump
Go
Verified
Volumetric Efficiency of Pump given Actual and Theoretical Discharge of Pump
Go
3 More Piston Pumps Calculators
Go
Pouring Time Relations
(6)
Verified
Castings above 450 kg and up to 1000 kg
Go
Verified
Copper Alloy Castings
Go
Verified
Grey Cast Iron, Mass less than 450 kg
Go
Verified
Intricately Shaped Thin-walled Castings of Mass up to 450 kg
Go
Verified
Shell-moulded Ductile Iron (vertical pouring)
Go
Verified
Steel Castings
Go
1 More Pouring Time Relations Calculators
Go
Principal Parameters
(5)
Created
Angle of banking
Go
Created
Force of attraction between two masses separated by distance
Go
Created
Maximum velocity to avoid overturning of vehicle along level circular path
Go
Created
Maximum velocity to avoid skidding away of vehicle along level circular path
Go
Created
Superelevation in railways
Go
Projectile Motion
(14)
Created
Direction of Projectile at given Height above Point of Projection
Go
Created
Horizontal Component of Velocity of Particle Projected Upwards from Point at Angle
Go
Created
Horizontal Range of Projectile
Go
Created
Horizontal Range of Projectile given Horizontal Velocity and Time of Flight
Go
Created
Initial Velocity given Maximum Horizontal Range of Projectile
Go
Created
Initial Velocity of Particle given Horizontal Component of Velocity
Go
Created
Initial Velocity of Particle given Time of Flight of Projectile
Go
Created
Initial Velocity of Particle given Vertical Component of Velocity
Go
Created
Maximum Height of Projectile on Horizontal Plane
Go
Created
Maximum Height of Projectile on Horizontal Plane given Average Vertical Velocity
Go
Created
Maximum Horizontal Range of Projectile
Go
Created
Time of Flight of Projectile on Horizontal Plane
Go
Created
Velocity of Projectile at given Height above Point of Projection
Go
Created
Vertical Component of Velocity of Particle Projected Upwards from Point at Angle
Go
Pulley Block
(9)
Created
Efficiency of Geared Pulley Block
Go
Created
Efficiency of Weston's Differential Pulley Block
Go
Created
Efficiency of Worm Geared Pulley Block
Go
Created
Net Shortening of Chain in Weston's Differential Pulley Block
Go
Created
Net Shortening of String in Worm Gear Pulley Block
Go
Created
Velocity Ratio in Weston's Differential Pulley Block
Go
Created
Velocity Ratio in Weston's Differential Pulley given Number of Teeth
Go
Created
Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys
Go
Created
Velocity Ratio of Worm Geared Pulley Block
Go
Pump Parameters
(6)
Verified
Angular Velocity of Centrifugal Pump
Go
Verified
Discharge of pump given specific speed
Go
Verified
Minimum speed for starting centrifugal pump
Go
Verified
Suction specific speed
Go
Verified
Volumetric Efficiency of Pump given Discharge and Leakage of Liquid
Go
Verified
Work done per second per unit weight of liquid
Go
9 More Pump Parameters Calculators
Go
Rectangular Section is Subjected to Load Eccentric to Both Axis
(1)
Verified
Eccentricity of Load about x-x Axis given Bending Stress about x-x Axis
Go
17 More Rectangular Section is Subjected to Load Eccentric to Both Axis Calculators
Go
Resistance spot welding parameters for mild steels
(3)
Verified
Current required to sustain welding
Go
Verified
Electrode force
Go
Verified
Weld time in cycles
Go
1 More Resistance spot welding parameters for mild steels Calculators
Go
Rotary Motion
(3)
Created
Final angular momentum
Go
Created
Initial angular momentum
Go
Created
Rate of Change of Angular Momentum
Go
Screw Friction
(4)
Created
Angle of inclination of thread
Go
Created
Pitch of screw
Go
Created
Slope of thread
Go
Created
Slope of thread in multi-threaded screw
Go
Screw Jack
(10)
Created
Efficiency of Differential Screw Jack
Go
Created
Efficiency of Screw Jack
Go
Created
Efficiency of Worm Geared Screw Jack
Go
Created
Torque Required while Load is Ascending in Screw Jack
Go
Created
Torque Required while Load is Descending in Screw Jack
Go
Created
Velocity Ratio of Differential Screw Jack
Go
Created
Velocity Ratio of Simple Screw Jack
Go
Created
Velocity Ratio of Worm Geared Screw Jack
Go
Created
Velocity Ratio of Worm Geared Screw Jack with Double Threaded
Go
Created
Velocity Ratio of Worm Geared Screw Jack with Multiple Threads
Go
Shaft Dimensions
(7)
Verified
Diameter of Shaft of Rigid Flange Coupling given Diameter of Spigot and Recess
Go
Verified
Diameter of Shaft of Rigid Flange Coupling given Length of Hub
Go
Verified
Diameter of Shaft of Rigid Flange Coupling given Outside Diameter of Flange
Go
Verified
Diameter of Shaft of Rigid Flange Coupling given Outside Diameter of Hub
Go
Verified
Diameter of Shaft of Rigid Flange Coupling given Pitch Circle Diameter of Bolts
Go
Verified
Diameter of Shaft of Rigid Flange Coupling given Thickness of Flanges
Go
Verified
Diameter of Shaft of Rigid Flange Coupling given Thickness of Protecting Rim
Go
Shear Stress
(2)
Created
Maximum Shear Stress given Major and Minor Tensile Stress
Go
Created
Shear Stress using Obliquity
Go
2 More Shear Stress Calculators
Go
Single Acting Pumps
(2)
Verified
Work done against friction in delivery pipe
Go
Verified
Work done against friction in suction pipe
Go
7 More Single Acting Pumps Calculators
Go
Strain
(3)
Created
Lateral Strain given Decrease in Breadth
Go
Created
Lateral Strain given Decrease in Depth
Go
Created
Longitudinal Strain
Go
4 More Strain Calculators
Go
Stress
(3)
Created
Normal Stress given Modulus of Elasticity
Go
Created
Permissible Stress using Factor of Safety
Go
Created
Ultimate Stress using Factor of Safety
Go
3 More Stress Calculators
Go
Stress Analysis
(1)
Verified
Force Acting on Each Pin or Bush of Coupling given Troque Transmitted
Go
4 More Stress Analysis Calculators
Go
Stress Relations
(6)
Created
Angle of Obliquity
Go
Created
Maximum Axial Force
Go
Created
Resultant Stress on Oblique Section given Stress in Perpendicular Directions
Go
Created
Safe Stress given Safe Value of Axial Pull
Go
Created
Safe Value of Axial Pull
Go
Created
Stress along Maximum Axial Force
Go
2 More Stress Relations Calculators
Go
T Joint with Two Fillets
(3)
Verified
Length of Fillet Leg from Transverse Shrinkage in T-Joints
Go
Verified
Thickness of Bottom Plate in T-Joints
Go
Verified
Transverse Shrinkage in T-Joint with Two Fillets
Go
Tangential Stress
(2)
Created
Tangential Stress across Oblique Section
Go
Created
Tangential Stress on Oblique Section given Stress in Perpendicular Directions
Go
Thermal Stress in Composite Bars
(7)
Created
Actual Expansion of Copper
Go
Created
Actual Expansion of Steel
Go
Created
Contraction due to Compressive Stress Induced in Brass
Go
Created
Expansion due to tensile stress in steel
Go
Created
Free Expansion of Copper
Go
Created
Free Expansion of Steel
Go
Created
Load on Brass or Steel
Go
Thermodynamics and Governing Equations
(11)
Created
Efficiency of cycle
Go
Created
Efficiency of Joule cycle
Go
Created
Enthalpy of Ideal Gas at given Temperature
Go
Created
Heat Capacity Ratio
Go
Created
Internal Energy of Perfect Gas at given Temperature
Go
Created
Pressure Ratio
Go
Created
Stagnation enthalpy
Go
Created
Stagnation Velocity of Sound
Go
Created
Stagnation Velocity of Sound given Specific Heat at Constant Pressure
Go
Created
Stagnation Velocity of Sound given Stagnation Enthalpy
Go
Created
Work ratio in practical cycle
Go
8 More Thermodynamics and Governing Equations Calculators
Go
Thrust and Power Generation
(5)
Created
Acceleration of Rocket
Go
Created
Photon Propulsion Thrust
Go
Created
Power required to produce Exhaust Jet Velocity
Go
Created
Thrust given Exhaust Velocity and Mass Flow Rate
Go
Created
Thrust given Mass and Acceleration of Rocket
Go
9 More Thrust and Power Generation Calculators
Go
Thrust and Power Requirements
(1)
Verified
Power required for given required thrust of aircraft
Go
18 More Thrust and Power Requirements Calculators
Go
Thrust Generation
(11)
Created
Gross thrust
Go
Created
Gross Thrust Coefficient
Go
Created
Ideal Thrust given Effective Speed Ratio
Go
Created
Momentum Thrust
Go
Created
Specific thrust
Go
Created
Specific Thrust given Effective Speed Ratio
Go
Created
Thrust given aircraft forward speed, velocity of exhaust
Go
Created
Thrust power
Go
Created
Thrust power specific fuel consumption
Go
Created
Thrust specific fuel consumption
Go
Created
Total Thrust given Efficiency and Enthalpy
Go
10 More Thrust Generation Calculators
Go
Turbine
(6)
Created
Degree of Reaction for Turbine
Go
Created
Efficiency of turbine in actual gas turbine cycle
Go
Created
Efficiency of Turbine in actual Gas Turbine Cycle given Enthalpy
Go
Created
Ideal Turbine Work given Pressure Ratio
Go
Created
Turbine Work given Enthalpy
Go
Created
Turbine Work in Gas Turbine given Temperature
Go
Turbojets
(3)
Created
Mass Flow Rate of Exhaust Gases
Go
Created
Mass Flow Rate of Exhaust Gases given Fuel Air Ratio
Go
Created
Thermal efficiency of turbojet engine
Go
11 More Turbojets Calculators
Go
Turbomachinery Equations
(8)
Created
Angular Moment of Momentum at Exit
Go
Created
Angular Moment of Momentum at Inlet
Go
Created
Energy Transfer due to Centrifugal Effect
Go
Created
Energy Transfer due to Change of Absolute Kinetic Energy of Fluid
Go
Created
Energy Transfer due to Change of Relative Kinetic Energy of Fluid
Go
Created
Peripheral Velocity of Blade at Entry corresponding to Diameter
Go
Created
Peripheral Velocity of Blade at Exit corresponding to Diameter
Go
Created
Torque Produced
Go
Turboprops
(4)
Created
Propeller Efficiency
Go
Created
Propeller efficiency given thrust
Go
Created
Thermal Efficiency of Propeller Engines
Go
Created
Total thrust given nozzle thrust and propeller thrust
Go
Undamped Free Vibration
(4)
Created
Equivalent Stiffness of Two Springs in Parallel
Go
Created
Equivalent Stiffness of Two Springs in Series
Go
Created
Frequency of Vibration
Go
Created
Natural Frequency of Torsional Vibration System
Go
Vane Pumps
(1)
Verified
Width of Vane Pump given Theoretical Discharge
Go
7 More Vane Pumps Calculators
Go
Volumetric Strain
(8)
Created
Lateral Strain given Volumetric and Longitudinal Strain
Go
Created
Longitudinal Strain given Volumetric and Lateral Strain
Go
Created
Longitudinal Strain given Volumetric Strain and Poisson's Ratio
Go
Created
Poisson's Ratio given Volumetric Strain and Longitudinal Strain
Go
Created
Volumetric Strain given Change in Length
Go
Created
Volumetric Strain given Change in Length, Breadth and Width
Go
Created
Volumetric Strain given Longitudinal and Lateral Strain
Go
Created
Volumetric Strain of Cylindrical Rod using Poisson's Ratio
Go
9 More Volumetric Strain Calculators
Go
Worm Wheel
(4)
Created
Efficiency of Worm and Worm Wheel
Go
Created
Velocity Ratio of Worm and Worm Wheel
Go
Created
Velocity Ratio of Worm and Worm Wheel, if Worm has Multiple Threads
Go
Created
Velocity Ratio of Worm and Worm Wheel, if Worm is Double Threaded
Go
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