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Calculators Created by Vaibhav Malani
Vaibhav Malani
National Institute of Technology
(NIT)
,
Tiruchirapalli
580
Formulas Created
228
Formulas Verified
141
Across Categories
List of Calculators by Vaibhav Malani
Following is a combined list of all the calculators that have been created and verified by Vaibhav Malani. Vaibhav Malani has created 580 and verified 228 calculators across 141 different categories till date.
Addendum Circle Diameter
(5)
Created
Addendum Circle Diameter of Large Size Gear
Go
Created
Addendum Circle Diameter of Medium Size Gear Diameter given Addendum
Go
Created
Addendum Circle Diameter of Medium Size Gear given Module and Number of Teeth
Go
Created
Addendum Circle Diameter of Small Size Gear given Addendum
Go
Created
Addendum Circle Diameter of Small Size Gear given Module and Number of Teeth
Go
Analysis of Bar of Uniform Strength
(2)
Created
Area of lower end of bar
Go
Created
Area of upper end of bar
Go
Angular Contact Bearing
(9)
Created
Axial Load for Back to Back Bearings when Fa by Fr is greater than 1.14
Go
Created
Axial Load for Back to Back Bearings when Fa by Fr is less than or equal to 1.14
Go
Created
Axial Load for Singly Mounted Bearings when Fa by Fr is greater than 1.14
Go
Created
Equivalent Dynamic Load for Back to Back Bearings when Fa by Fr is greater than 1.14
Go
Created
Equivalent Dynamic Load for Back to Back Bearings when Fa by Fr is less than or equal to 1.14
Go
Created
Equivalent Dynamic Load for Singly Mounted Bearings when Fa by Fr is greater than 1.14
Go
Created
Radial Load for Back to Back Bearings when Fa by Fr greater than 1.14
Go
Created
Radial Load for Back to Back Bearings when Fa by Fr less than or equal to 1.14
Go
Created
Radial Load for Singly Mounted Bearings when Fa by Fr is greater than 1.14
Go
Area moment of inertia
(2)
Verified
Moment of inertia of hollow circle about diametrical axis
Go
Verified
Moment of inertia of triangle about centroidal axis x-x parallel to base
Go
5 More Area moment of inertia Calculators
Go
Axial Force
(5)
Created
Axial Force on Clutch from Constant Pressure Theory given Fiction Torque and Diameter
Go
Created
Axial Force on Clutch from Constant Pressure Theory given Pressure Intensity and Diameter
Go
Created
Axial Force on Clutch from Constant Wear Theory given Friction Torque
Go
Created
Axial Force on Clutch from Constant Wear Theory given Permissible Intensity of Pressure
Go
Created
Axial force on Clutch given Friction Radius
Go
Axially Loaded Steel Columns Design
(1)
Verified
LRFD Strength for Compression Member
Go
4 More Axially Loaded Steel Columns Design Calculators
Go
Basic Gear Parameters
(12)
Created
Center to center distance between Spur Gears
Go
Created
Diameter of holes in Gear web of medium size diameter
Go
Created
Gear Ratio given Number of Teeth
Go
Created
Gear ratio in terms of speed
Go
Created
Inner diameter of rim of large size gear
Go
Created
Inner diameter of rim of medium size diameter
Go
Created
Length of Gear tooth
Go
Created
Outer diameter of hub of large size gear
Go
Created
Pitch line velocity of Gear
Go
Created
Radial Force of Gear given Tangential Force and Pressure Angle
Go
Created
Resultant Force on Gear
Go
Created
Thickness of rim of large size gear
Go
1 More Basic Gear Parameters Calculators
Go
Basics of Centrifugal Pumps
(4)
Verified
Diameter of delivery pipe
Go
Verified
Diameter of suction pipe
Go
Verified
Volume of liquid at outlet
Go
Verified
Weight of liquid
Go
11 More Basics of Centrifugal Pumps Calculators
Go
Basics of gas turbines
(6)
Verified
Heat capacity ratio
Go
Verified
Shaft work in compressible flow machines
Go
Verified
Shaft work in compressible flow machines neglecting inlet and exit velocities
Go
Verified
Stagnation Velocity of Sound
Go
Verified
Stagnation Velocity of Sound given specific heat at constant pressure
Go
Verified
Stagnation Velocity of Sound given stagnation enthalpy
Go
11 More Basics of gas turbines Calculators
Go
Bernie's and Clavarino's Equation
(4)
Created
Inner Diameter of Pressurized Cylinder from Bernie's Equation
Go
Created
Inner Diameter of Pressurized Cylinder from Clavarino's Equation
Go
Created
Thickness of Pressurized Cylinder from Bernie's Equation
Go
Created
Thickness of Pressurized Cylinder from Clavarino's Equation
Go
Charging voltage
(6)
Verified
Capacitance of charging circuit of EDM
Go
Verified
Elapsed time during charging
Go
Verified
Resistance of charging circuit from time elapsed
Go
Verified
Time constant for charging circuit of EDM
Go
Verified
Voltage at any time t
Go
Verified
voltage of supply power for EDM
Go
2 More Charging voltage Calculators
Go
Coefficient of Friction
(5)
Created
Coefficient of Friction for Clutch from Constant Pressure Theory given Diameters
Go
Created
Coefficient of Friction of Clutch from Constant Pressure Theory given Friction Torque
Go
Created
Coefficient of Friction of Clutch from Constant Wear Theory
Go
Created
Coefficient of Friction of Clutch from Constant Wear Theory given Axial Force
Go
Created
Coefficient of Friction of Clutch given Friction Radius
Go
Core Diameter
(4)
Created
Core Diameter of Bolt
Go
Created
Core Diameter of Bolt given Nominal Diameter
Go
Created
Core Diameter of Bolt given Pitch
Go
Created
Core diameter of Bolt given Tensile Stress
Go
Dedendum Circle Diameter
(5)
Created
Dedendum Circle Diameter of Large Size Gear
Go
Created
Dedendum Circle Diameter of Medium Size Gear given Dedundum
Go
Created
Dedendum Circle Diameter of Medium Size Gear given Module and Number of Teeth
Go
Created
Dedendum Circle Diameter of Small Size Gear given Dedendum
Go
Created
Dedendum Circle Diameter of Small Size Gear given Number of Teeth and Module
Go
Design for Brittle and Ductile Material under Static Load
(6)
Created
Allowable stress for brittle material
Go
Created
Allowable stress for ductile material
Go
Created
Factor of safety for brittle materials
Go
Created
Factor of safety for ductile materials
Go
Created
Ultimate tensile strength for brittle materials
Go
Created
Yield strength for ductile materials
Go
Design of Bushed-Pin flexible coupling
(13)
Created
Effective length of Bush in Contact with Input Flange of Bushed Pin Coupling
Go
Created
Effective Length of Bush of Bushed Pin Coupling given Torque
Go
Created
Force acting on each pin or bush of Coupling
Go
Created
Force acting on each pin or bush of Coupling given Troque transmitted
Go
Created
Length of Hub of Bushed Pin Coupling given Diameter of Driving Shaft
Go
Created
Number of Bushes or Pins in Terms of Effective Length of Bush and Torque in Bush Pin Coupling
Go
Created
Number of Bushes or Pins of Bushed Pin Coupling given Torque
Go
Created
Permissible Intensity of Pressure between Flange and Rubber bush in Bushed Pin Coupling
Go
Created
Permissible Intensity of pressure between Flange and Rubber Bush of Coupling given Torque
Go
Created
Thickness of output flange of Coupling
Go
Created
Thickness of protective rim of Coupling
Go
Created
Torque Transmitted by Bushed Pin Coupling
Go
Created
Torque Transmitted by Bushed Pin Coupling given Force
Go
2 More Design of Bushed-Pin flexible coupling Calculators
Go
Design of Centrifugal Clutches
(4)
Created
Centrifugal Force on Clutch
Go
Created
Friction Force on Centrifugal Clutch
Go
Created
Friction Torque on Centrifugal Clutch
Go
Created
Spring Force in Centrifugal Clutch
Go
Design of clamp coupling
(4)
Created
Diameter of Driving Shaft of Clamp Coupling given Length of sleeve
Go
Created
Diameter of Driving Shaft of Clamp Coupling given Outer diameter of sleeve halves
Go
Created
Length of sleeve halves of Clamp Coupling
Go
Created
Outer diameter of sleeve halves of Clamp Coupling
Go
2 More Design of clamp coupling Calculators
Go
Design of Cone Clutches
(6)
Created
Axial Force on Cone Clutch from Constant Wear Theory given Permissible Pressure Intensity
Go
Created
Axial Force on Cone Clutch from Constant Wear Theory given Pressure
Go
Created
Friction Torque on Cone Clutch from Constant Pressure Theory
Go
Created
Friction Torque on Cone Clutch from Constant Pressure Theory given Axial Force
Go
Created
Friction Torque on Cone Clutch from Constant Wear Theory given Axial Force
Go
Created
Friction Torque on Cone Clutch from Constant Wear Theory given Semi-Cone Angle
Go
Design of Curved Beams
(2)
Verified
Bending stress in fiber of curved beam
Go
Verified
Eccentricity between central and neutral axis of curved beam
Go
18 More Design of Curved Beams Calculators
Go
Design of Flywheel
(17)
Created
Coefficient of Fluctuation of Flywheel Energy given Maximum Fluctuation of Flywheel Energy
Go
Created
Coefficient of Fluctuation of Flywheel Speed given Mean Speed
Go
Created
Coefficient of Fluctuation of Flywheel Speed given Min and Max Speed
Go
Created
Coefficient of Steadiness of Flywheel given Mean Speed
Go
Created
Energy Output from Flywheel
Go
Created
Mass Density of Flywheel Disk
Go
Created
Maximum Fluctuation of Flywheel Energy given Coefficient of Fluctuation of Enaergy
Go
Created
Mean Angular Velocity of Flywheel
Go
Created
Mean Torque of Flywheel for Four Stroke Engine
Go
Created
Mean Torque of Flywheel for Two Stroke Engine
Go
Created
Moment of Inertia of Flywheel
Go
Created
Moment of Inertia of Flywheel Disk
Go
Created
Outer Radius of Flywheel Disk
Go
Created
Thickness of Flywheel Disk
Go
Created
Work Done per Cycle for Engine connected to Flywheel
Go
Created
Work Done per Cycle for Four Stroke Engine connected to Flywheel
Go
Created
Work Done per Cycle for Two Stroke Engine connected to Flywheel
Go
4 More Design of Flywheel Calculators
Go
Design of Friction Clutches
(11)
Created
Friction Radius of Clutch given Friction Torque
Go
Created
Friction Radius of Clutch given Outer and Inner Diameter
Go
Created
Inner Diameter of Clutch given Friction Radius
Go
Created
Outer Diameter of Clutch given Friction Radius
Go
Created
Permissible Pressure Intensity on Clutch from Constant Wear Theory given Axial Force
Go
Created
Permissible Pressure Intensity on Clutch from Constant Wear Theory given Friction Torque
Go
Created
Pressure on Clutch Plate from Constant Pressure Theory given Axial Force
Go
Created
Pressure on Clutch Plate from Constant Pressure Theory given Friction Torque
Go
Created
Rated Torque of Clutch given Torque Capacity
Go
Created
Service Factor for Clutch
Go
Created
Torque Capacity of Clutch
Go
Design of Muff coupling
(4)
Created
Axial length of sleeve of Muff Coupling
Go
Created
Diameter of Driving Shaft of Muff Coupling given Axial length of sleeve
Go
Created
Diameter of Driving Shaft of Muff Coupling given Outer diameter of sleeve
Go
Created
Outer diameter of sleeve of Muff Coupling
Go
Design of Multiple Disk Clutches
(2)
Created
Friction Torque on Multiple Disk Clutch from Constant Pressure Theory
Go
Created
Friction Torque on Multiple Disk Clutch from Constant Wear Theory
Go
Design of Pressure Vessels
(6)
Created
Decrease in Outer Diameter of Cylinder given Total deformation in Pressure Vessel
Go
Created
Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel
Go
Created
Internal Diameter of Pressurized Cylinder
Go
Created
Maximum Load inside Pressurized Cylinder when Joint is on verge of opening
Go
Created
Thickness of Pressurized Cylinder
Go
Created
Total Deformation of Pressure Vessel given Increase in Inner Diameter of Jacket
Go
Design of rigid flange coupling
(14)
Created
Diameter of Shaft of Rigid Flange Coupling given Diameter of Spigot and Recess
Go
Created
Diameter of Shaft of Rigid Flange Coupling given Length of Hub
Go
Created
Diameter of Shaft of Rigid Flange Coupling given Outside diameter of flange
Go
Created
Diameter of Shaft of Rigid Flange Coupling given Outside Diameter of Hub
Go
Created
Diameter of Shaft of Rigid Flange Coupling given pitch circle diameter of bolts
Go
Created
Diameter of Shaft of Rigid Flange Coupling given thickness of flanges
Go
Created
Diameter of Shaft of Rigid Flange Coupling given thickness of protecting rim
Go
Created
Diameter of Spigot and Recess of Rigid Flange Coupling
Go
Created
Length of Hub of Rigid Flange Coupling given Diameter of Driving Shaft
Go
Created
Outside Diameter of flange of Rigid Flange Coupling
Go
Created
Outside Diameter of Hub of Rigid Flange Coupling given Diameter of Driving Shaft
Go
Created
Pitch Circle Diameter of bolts of Rigid Flange Coupling
Go
Created
Thickness of flanges of Rigid Flange Coupling
Go
Created
Thickness of Protecting Rim of Rigid Flange Coupling
Go
Design of Rolling Contact Bearing
(21)
Created
Axial Thrust Load on Bearing given Race Rotation Factor
Go
Created
Axial Thrust Load on Bearing given Thrust Factor
Go
Created
Bore Diameter of Bearing
Go
Created
Coefficient of Friction of Roller Contact Bearing
Go
Created
Friction Moment on Roller Contact Bearing
Go
Created
Load on Bearing given Moment on bearing
Go
Created
Median Life of Roller Contact Bearing
Go
Created
Nominal Life of Roller Contact Bearing
Go
Created
Number of Bearings required given Reliability
Go
Created
Race Rotation Factor of Roller Contact Bearing
Go
Created
Radial Factor of Roller Contact Bearing
Go
Created
Radial Factor of Roller Contact Bearing given Race Rotation Factor
Go
Created
Radial Load on Bearing
Go
Created
Radial Load on Bearing given Race Rotation Factor
Go
Created
Reliability of Bearing
Go
Created
Reliability of Bearing given Number of Bearings
Go
Created
Reliability of Complete Bearing System
Go
Created
Speed of Rotation of Bearing
Go
Created
Thrust factor of Bearing
Go
Created
Thrust factor of Bearing given Race Rotation Factor
Go
Created
Train Wheel Diameter considering Bearing Life
Go
Design of Shaft for Torsional Moment
(9)
Created
Angle of twist of hollow cylindrical rod in degrees
Go
Created
Angle of twist of shaft in radians given torque, length of shaft, polar moment of inertia
Go
Created
Angle of twist of solid cylindrical rod in degrees
Go
Created
Polar moment of inertia of circular cross section
Go
Created
Polar moment of inertia of hollow circular cross-section
Go
Created
Polar moment of inertia of shaft given shear stress and torsional moment
Go
Created
Power transmitted by shaft given speed of shaft and torque
Go
Created
Torsional moment on shaft given shear stress
Go
Created
Torsional shear stress in shaft due to torsional moment
Go
Design of Threaded Fasteners
(7)
Created
Endurance Limit of Rotating Beam Specimen
Go
Created
Factor of Safety in Terms of Tensile Yield Strength of Threaded Fastner
Go
Created
Number of Bolts required
Go
Created
Radius of Root of Threads
Go
Created
Tensile Stress Area of Threaded fastener
Go
Created
Tensile Yield Strength of Bolt
Go
Created
Ultimate Tensile Strength of Bolt
Go
Diameter of Bushed Pin flexible coupling components
(12)
Created
Diameter of Driving Shaft of Coupling given Diameter of Pin
Go
Created
Diameter of Driving Shaft of Coupling given Length of Hub of Bushed Pin Coupling
Go
Created
Diameter of Driving Shaft of Coupling given Outside Diameter of Hub of Bushed Pin Coupling
Go
Created
Diameter of Driving Shaft of Coupling given Pitch Circle Diameter of Pins
Go
Created
Diameter of Driving Shaft of Coupling given Thickness of output flange
Go
Created
Diameter of Driving Shaft of Coupling given Thickness of protective rim
Go
Created
Diameter of Pin of Coupling
Go
Created
Outer Diameter of Bush in Bushed Pin Coupling given Force
Go
Created
Outer Diameter of Bush in Bushed Pin Coupling given Torque and Effective Length
Go
Created
Outside Diameter of Hub of Bushed pin Coupling given Diameter of Driving Shaft
Go
Created
Pitch Circle Diameter of Bushes or Pins of Coupling
Go
Created
Pitch Circle Diameter of Pins of Coupling
Go
Dimensionless Performance Parameters
(8)
Created
Coefficient of Friction in Terms of Coefficient of friction Variable
Go
Created
Coefficient of Friction Variable of Bearing in Terms of Coefficient of Friction
Go
Created
Flow Ratio Variable in Terms of Outflow of Lubricant
Go
Created
Flow Variable in Terms of Flow of Lubricant in Clearance Space of Journal
Go
Created
Load Coefficient in Terms of Load Acting on Bearing
Go
Created
Radial Clearance in Terms of Coefficient of Friction Variable of Bearing
Go
Created
Radius of Journal in Terms of Coefficient of Friction Variable
Go
Created
Sommerfeld Number of Bearing
Go
Direct Strains of Diagonal
(4)
Created
Modulus of Rigidity using Young's Modulus and Poisson's Ratio
Go
Created
Poisson's Ratio using Modulus of Rigidity
Go
Created
Total tensile strain in diagonal BD of square block ABCD in terms of modulus of rigidity
Go
Created
Young's Modulus using Modulus of Rigidity
Go
7 More Direct Strains of Diagonal Calculators
Go
Discharge
(2)
Verified
Discharge of Double Acting Reciprocating Pump
Go
Verified
Discharge of Double Acting Reciprocating Pump neglecting Diameter of Piston Rod
Go
3 More Discharge Calculators
Go
Distortion Energy Theory
(12)
Created
Shear yield strength by maximum distortion energy theorem
Go
Created
Stain energy of change in volume with no distortion given principal stresses
Go
Created
Strain corresponding to change in volume with no distortion
Go
Created
Strain energy corresponding to change in volume with no distortion
Go
Created
Strain energy corresponding to change in volume with no distortion given stress
Go
Created
Strain energy corresponding to distortion with no change in volume
Go
Created
Strain energy corresponding to distortion with no change in volume given yield strength
Go
Created
Stress corresponding to change of volume with no distortion
Go
Created
Tensile yield strength by distortion energy theorem considering factor of safety for biaxial stress
Go
Created
Tensile yield strength from distortion energy theorem
Go
Created
Tensile yield strength from distortion energy theorem considering factor of safety
Go
Created
Total strain energy per unit volume
Go
1 More Distortion Energy Theory Calculators
Go
Dynamic Load
(7)
Created
Dynamic Load Capacity for Ball Bearing
Go
Created
Dynamic Load Capacity for Bearing given Rated Bearing Life
Go
Created
Dynamic Load Capacity for Roller Bearing
Go
Created
Equivalent Dynamic Load for Bearing given Radial Factor
Go
Created
Equivalent Dynamic Load for Ball Bearing
Go
Created
Equivalent Dynamic Load for Bearing given Rated Bearing Life
Go
Created
Equivalent Dynamic Load for Roller Bearing
Go
Dynamics
(2)
Verified
Force of attraction between two masses separated by distance
Go
Verified
Superelevation in railways
Go
3 More Dynamics Calculators
Go
Eccentricity
(5)
Created
Eccentricity of Bearing in Terms of Minimum Film Thickness
Go
Created
Eccentricity of Bearing in Terms of Radial Clearance and Eccentricity
Go
Created
Eccentricity Ratio in Terms of Minimum Film Thickness of Bearing
Go
Created
Eccentricity Ratio of Bearing in Terms of Minimum Film Thickness Variable
Go
Created
Eccentricity Ratio of Bearing in Terms of Radial Clearance and Eccentricity
Go
Effective Load on Gear Tooth
(11)
Created
Deformation factor of Gear
Go
Created
Effective load on Gear Tooth
Go
Created
Error in Gear
Go
Created
Error in Gear system
Go
Created
Error in Pinion
Go
Created
Form Factor of Gear given Deformation Factor
Go
Created
Maximum Tangential Force on Gear given Service factor
Go
Created
Tolerance factor of Gear
Go
Created
Velocity factor for accurately hobbed and generated gears when v less than 20
Go
Created
Velocity factor for commercially cut gears made with form cutters when v less than 10
Go
Created
Velocity factor for precision gears with shaving and grinding operations when v greater than 20
Go
2 More Effective Load on Gear Tooth Calculators
Go
Efficiency
(3)
Verified
Propulsive efficiency
Go
Verified
Propulsive efficiency given aircraft velocity
Go
Verified
Propulsive Efficiency given Effective Speed Ratio
Go
7 More Efficiency Calculators
Go
Efficiency
(4)
Verified
Manometric efficiency
Go
Verified
Manometric Efficiency using Velocities
Go
Verified
Overall efficiency
Go
Verified
Overall Efficiency using Manometric, Volumetric and Mechanical Efficiencies
Go
3 More Efficiency Calculators
Go
Effort, Load and Reaction on Lever
(6)
Created
Effort using Length and Load
Go
Created
Effort using Leverage
Go
Created
Leverage
Go
Created
Load using Lengths and Effort
Go
Created
Load using Leverage
Go
Created
Mechanical advantage
Go
4 More Effort, Load and Reaction on Lever Calculators
Go
Elastic bodies
(6)
Verified
Coefficient of restitution of freely falling body having height and bounce
Go
Verified
Loss of kinetic energy during impact
Go
Verified
Total kinetic energy of two bodies after impact
Go
Verified
Total Kinetic Energy of Two Bodies before Impact
Go
Verified
Velocity of approach
Go
Verified
Velocity of separation after impact
Go
3 More Elastic bodies Calculators
Go
Elements of vibration
(5)
Verified
Angular frequency given time period of motion
Go
Verified
Magnitude of maximum acceleration of body in simple harmonic motion
Go
Verified
Maximum velocity of body in simple harmonic motion
Go
Verified
Period of motion in simple harmonic motion
Go
Verified
Work done by harmonic force
Go
9 More Elements of vibration Calculators
Go
Elongation of Bar Due Its Own Weight
(4)
Created
Elongation of element
Go
Created
Strain in Element
Go
Created
Stress on element of rod
Go
Created
Weight of bar for length x
Go
6 More Elongation of Bar Due Its Own Weight Calculators
Go
Endurance Limit Approximate Estimation
(15)
Created
Endurance Limit for Axial Loading
Go
Created
Endurance Limit given Endurance Limit for Axial Loading
Go
Created
Endurance Limit of a Rotating Beam Specimen
Go
Created
Endurance Limit of Rotating Beam Specimen of Steel
Go
Created
Endurance Limit of Specimen
Go
Created
Endurance Limit Stress of Rotating Beam Specimen of Aluminium Alloys
Go
Created
Endurance Limit Stress of Rotating Beam Specimen of Cast Aluminium Alloys
Go
Created
Endurance Limit Stress of Rotating Beam Specimen of Cast Iron or Steels
Go
Created
Fatigue Stress Concentration Factor given Modifying Factor
Go
Created
Modifying Factor for Fluctuating load given Fatigue Stress Concentration Factor
Go
Created
Modifying Factor to account for Stress Concentration
Go
Created
Reliability Factor for Fluctuating load
Go
Created
Size Factor for Fluctuating load
Go
Created
Stress Amplitude for Fluctuating load given Maximum Stress and Minimum Stress
Go
Created
Surface finish factor of specimen
Go
Energy delivered per spark
(3)
Verified
Capacitance of circuit from energy per spark EDM
Go
Verified
Charging voltage from energy per spark
Go
Verified
Energy delivered per spark
Go
2 More Energy delivered per spark Calculators
Go
Equivalent Bearing Load
(1)
Created
Equivalent Dynamic Load for Back to Back Bearings
Go
7 More Equivalent Bearing Load Calculators
Go
Film Thickness
(8)
Created
Film Thickness in Terms of Absolute Viscosity and Tangential Force
Go
Created
Film Thickness in Terms of Flow Coefficient and Flow of Lubricant
Go
Created
Fluid Film Thickness in Terms of Flow of Lubricant
Go
Created
Minimum Film Thickness in Terms of Minimum Film Thickness Variable of Bearing
Go
Created
Minimum Film Thickness in terms of Radius of Bearing
Go
Created
Minimum Film Thickness of bearing in Terms of Eccentricity Ratio
Go
Created
Minimum Film Thickness Variable of Bearing
Go
Created
Minimum Film Thickness Variable of Bearing in Terms of Eccentricity Ratio
Go
Flow of Lubricant
(4)
Created
Flow of Lubricant in Terms of Pumping Power
Go
Created
Flow of Lubricant in Terms of Pumping Power and Pressure of Lubricating Oil
Go
Created
Flow of Lubricant in the Clearance of Journal in Terms of Flow Variable
Go
Created
Flow of Lubricant Into the Clearance of Journal in Terms of Outflow and Flow Ratio Variable
Go
Flow Velocity
(2)
Verified
Flow velocity at inlet given volume of liquid
Go
Verified
Flow velocity at outlet given volume of liquid
Go
1 More Flow Velocity Calculators
Go
Force on Bolt and Thread
(10)
Created
Change in external load on bolt given external load and stiffness of boad
Go
Created
Change in Load on Bolt given Resultant Load and Initial Preload in Bolt
Go
Created
External Force on Bolt
Go
Created
Initial Preload in the Bolt due to Tightening
Go
Created
Limiting force on bolt given stiffness and initial preload
Go
Created
Primary Shear Force on each Bolt
Go
Created
Resultant Load on Bolt
Go
Created
Tensile Force acting on Bolt
Go
Created
Tensile Force acting on Bolt given Shear Stress
Go
Created
Tensile Force acting on Bolt given Tensile Stress
Go
Free Vibration of Single DOF Undamped Torsional System
(2)
Verified
Restoring torque in terms of Torsional spring constant and angle of twist
Go
Verified
Torsional spring constant in terms of torque and angle of twist
Go
1 More Free Vibration of Single DOF Undamped Torsional System Calculators
Go
Frequency of charging
(5)
Verified
Capacitance of charging circuit
Go
Verified
Charging voltage from resistance charging circuit
Go
Verified
Frequency of charging
Go
Verified
Resistance of charging circuit EDM
Go
Verified
Supply voltage
Go
Frequency of cutting
(6)
Verified
Capacitance of circuit
Go
Verified
Charging time from cutting frequency
Go
Verified
Frequency of cutting from capacitance and inductance
Go
Verified
Frequency of cutting using charging and sparking time
Go
Verified
Inductance of circuit from cutting frequency
Go
Verified
Sparking time from frequency of cutting
Go
Frictional Torque
(5)
Created
Friction Torque on Clutch from Constant Pressure Theory given Axial Force
Go
Created
Friction Torque on Clutch from Constant Pressure Theory given Pressure
Go
Created
Friction Torque on Clutch from Constant Wear Theory given Diameters
Go
Created
Friction Torque on Clutch given Friction Radius
Go
Created
Frictional Torque on Clutch from Constant Wear Theory given Diameters
Go
Fundamentals of rotating machines
(5)
Verified
Impeller outlet diameter
Go
Verified
Isentropic efficiency of compression machine
Go
Verified
Isentropic efficiency of expansion machine
Go
Verified
Mean diameter of impeller
Go
Verified
Work done by roots blower
Go
4 More Fundamentals of rotating machines Calculators
Go
Gasket Joint
(12)
Created
Approximate Stiffness of Cylinder Cover, Cylinder Flange and Gasket
Go
Created
Combined Stiffness of Cylinder Cover, Cylinder Flange and Gasket
Go
Created
Nominal Diameter of Gasket Joint
Go
Created
Nominal Diameter of Gasket Joint Bolt given Stiffness, total thickness and Young's Modulus
Go
Created
Stiffness of Bolt of Gasket Joint given Nominal Diameter, Total Thickness, and Young's Modulus
Go
Created
Stiffness of Cylinder Cover of Gasket Joint
Go
Created
Stiffness of Cylinder Flange of Gasket Joint
Go
Created
Stiffness of Gasket of Gasket Joint
Go
Created
Thickness of Member under Compression for Gasket Joint
Go
Created
Total Thickness of Gasket Joint given Stiffness, Nominal Diameter and Young's Modulus
Go
Created
Young's Modulus of Gasket Joint
Go
Created
Young's Modulus of Gasket Joint given Stiffness, Total Thickness and Nominal Diameter
Go
Gear pumps
(8)
Verified
Actual discharge given pump slippage
Go
Verified
Actual discharge given volumetric efficiency and theoretical discharge
Go
Verified
Angular speed given theoretical discharge and volumetric displacement
Go
Verified
Pump slippage
Go
Verified
Pump Slippage Percentage
Go
Verified
Theoretical discharge given pump slippage
Go
Verified
Theoretical discharge given volumetric efficiency and actual discharge
Go
Verified
Volumetric efficiency of gear pumps
Go
4 More Gear pumps Calculators
Go
General fluid dynamics
(2)
Verified
Angular moment of momentum at exit
Go
Verified
Angular moment of momentum at inlet
Go
6 More General fluid dynamics Calculators
Go
Heat absorbed by the electrolyte
(6)
Verified
Ambient temperature
Go
Verified
Boiling point of electrolyte
Go
Verified
Density of electrolyte from heat absorbed electrolyte
Go
Verified
Flow rate of electrolyte from heat absorbed electrolyte
Go
Verified
Heat absorbed by electrolyte
Go
Verified
Specific heat of electrolyte
Go
Height
(7)
Created
Height of Basic Profile of Screw Threads
Go
Created
Height of Fundamental Triangle of Screw Threads
Go
Created
Height of Fundamental Triangle of Screw Threads given Minor Diameter of External Thread
Go
Created
Height of Fundamental Triangle of Screw Threads given Minor Diameter of Internal Thread
Go
Created
Height of Fundamental Triangle of Screw Threads given Pitch Diameter of External Thread
Go
Created
Height of Fundamental Triangle of Screw Threads given Pitch Diameter of Internal Thread
Go
Created
Height of nut
Go
Hydraulic linear actuators
(5)
Verified
Discharge during retraction
Go
Verified
Force exerted onto the piston or by the piston
Go
Verified
Pressure during retraction
Go
Verified
Pressure exerted by piston
Go
Verified
Velocity of piston during retraction
Go
5 More Hydraulic linear actuators Calculators
Go
Hydraulic motors
(6)
Verified
Actual torque delivered
Go
Verified
Mechanical efficiency
Go
Verified
Overall efficiency percentage
Go
Verified
Theoretical discharge for hydraulic motors
Go
Verified
Theoretical Power
Go
Verified
Theoretical Power given Volumetric Displacement
Go
6 More Hydraulic motors Calculators
Go
Hydraulic press
(1)
Verified
Mechanical advantage of hydraulic press
Go
10 More Hydraulic press Calculators
Go
Hydraulic ram
(7)
Verified
Aubuisson's efficiency of hydraulic ram
Go
Verified
Rankine's efficiency of hydraulic ram
Go
Verified
Rate of discharge of water actually lifted by the ram
Go
Verified
Rate of discharge of water flowing past the waste valve
Go
Verified
Time during which the velocity in the supply pipe builds up from zero to Vmax-Hydraulic ram
Go
Verified
Time during which the waste valve remains closed-Hydraulic ram
Go
Verified
Total time for one cycle of a hydraulic ram
Go
6 More Hydraulic ram Calculators
Go
Hydraulic Turbines
(4)
Verified
Angular Speed of Turbine given Specific Speed
Go
Verified
Head of turbine given specific speed
Go
Verified
Power of Turbine given Specific Speed
Go
Verified
Specific Speed of Turbine
Go
3 More Hydraulic Turbines Calculators
Go
Hydrostatic Step Bearing with Pad
(10)
Created
Dimension b of Slot in terms of Flow of Lubricant
Go
Created
Dimension X in Terms of Total Projected Area of Bearing Pad
Go
Created
Dimension Y in Terms of Total Projected Area of Bearing Pad
Go
Created
Flow Coefficient in Terms of Flow of Lubricant through the Pad
Go
Created
Flow of Lubricant through the slot in Terms of Pressure Difference
Go
Created
Flow of Lubricating Oil Passing through the Pad in Terms of Flow Coefficient
Go
Created
Length of Slot in Direction of Flow in Terms of Flow of Lubricant
Go
Created
Total Projected Area of Bearing Pad
Go
Created
Total Projected Area of Bearing Pad in Terms of Flow of Lubricant
Go
Created
Total Projected Area of Bearing Pad in Terms of Load acting on Bearing
Go
Ideal cycles
(4)
Verified
Amount of heat added in simple gas turbine cycle given temperature
Go
Verified
Compressor work in simple gas turbine given temperature
Go
Verified
Efficiency of cycle
Go
Verified
Net work output in simple gas turbine cycle
Go
5 More Ideal cycles Calculators
Go
Impeller
(1)
Verified
Impeller radius at inlet given inlet tangential velocity
Go
3 More Impeller Calculators
Go
Inlets and nozzles
(4)
Verified
Discharge coefficient given flow area
Go
Verified
Discharge coefficient given mass flow
Go
Verified
Gross thrust coefficient
Go
Verified
Velocity coefficient
Go
Jet propulsion cycles
(11)
Verified
Effective speed ratio
Go
Verified
Gross thrust
Go
Verified
Inlet drag
Go
Verified
Specific thrust
Go
Verified
Specific thrust given effective speed ratio
Go
Verified
Thrust given aircraft forward speed, velocity of exhaust
Go
Verified
Thrust given effective speed ratio
Go
Verified
Thrust power
Go
Verified
Thrust specific fuel consumption
Go
Verified
Total thrust given efficiency and enthalpy
Go
Verified
Total thrust given nozzle thrust and propeller thrust
Go
8 More Jet propulsion cycles Calculators
Go
Journal
(7)
Created
Journal Diameter in terms of Unit Bearing Pressure
Go
Created
Journal Speed in Terms of Flow Variable
Go
Created
Journal Speed in Terms of Sommerfeld Number of Bearing
Go
Created
Radius of Journal in Terms of Flow Variable
Go
Created
Radius of Journal in Terms of Minimum Film Thickness of Bearing
Go
Created
Radius of Journal in Terms of Radial Clearance of Bearing
Go
Created
Radius of Journal in terms of Sommerfeld Number of Bearing
Go
Laser Beam Machining (LBM)
(8)
Verified
Ambient temperature during LBM
Go
Verified
Energy required to melt the metal
Go
Verified
Latent heat of fusion of metal
Go
Verified
Melting temperature of metal
Go
Verified
Reflectivity of the material
Go
Verified
Specific gravity of given metal
Go
Verified
Specific heat capacity of metal
Go
Verified
Volume of the metal melted
Go
3 More Laser Beam Machining (LBM) Calculators
Go
Laws of Motion
(8)
Verified
Downward force due to mass of lift, when lift is moving upwards
Go
Verified
Final momentum
Go
Verified
Initial momentum
Go
Verified
Momentum
Go
Verified
Net upward force on lift, when lift is moving upwards
Go
Verified
Rate of change of momentum given acceleration and mass
Go
Verified
Rate of change of momentum given initial and final velocities
Go
Verified
Velocity of body given momentum
Go
6 More Laws of Motion Calculators
Go
Length of Arms
(4)
Created
Length of Effort Arm given Leverage
Go
Created
Length of Effort Arm given Load and Effort
Go
Created
Length of Load Arm given Leverage
Go
Created
Length of Load Arm given Load and Effort
Go
1 More Length of Arms Calculators
Go
Lifting Machines
(2)
Verified
Net shortening of chain in weston's differential pulley block
Go
Verified
Net shortening of string in worm gear pulley block
Go
10 More Lifting Machines Calculators
Go
Load on Bolt of Presssurized Cylinder
(6)
Created
Change in External Load due to Pressure Inside the Cylinder given kb and kc
Go
Created
Change in External Load on Bolt due to Pressure Inside Cylinder
Go
Created
External Load on Bolt due to Internal Pressure given kb and kc
Go
Created
Initial Preload due to Bolt tightening
Go
Created
Initial Preload due to Bolt tightening given kb and kc
Go
Created
Resultant Load on Bolt given Pre load
Go
Loss of Head
(1)
Verified
Loss of head due to friction given area of Pipe
Go
2 More Loss of Head Calculators
Go
Major Diameter
(10)
Created
Major Diameter of External Thread given Height of Fundamental Triangle
Go
Created
Major Diameter of External Thread given Minor Diameter of External Thread
Go
Created
Major Diameter of External Thread given Pitch and Pitch Diameter of External Thread
Go
Created
Major Diameter of Internal Thread given Height of Fundamental triangle
Go
Created
Major Diameter of Internal Thread given Pitch and Minor Diameter of External Thread
Go
Created
Major Diameter of Internal Thread given Pitch and Minor Diameter of Internal Thread
Go
Created
Major Diameter of Internal Thread given Pitch Diameter of Internal Thread
Go
Created
Minor Diameter of Internal Thread given Pitch and Pitch Diameter of Internal Thread
Go
Created
Nominal Diameter of Bolt
Go
Created
Nominal Diameter of Bolt given Core Diameter
Go
Manometric Head
(2)
Verified
Manometric head in terms of head imparted by the impeller and loss of head in the pump
Go
Verified
Manometric Head using Total Head at Outlet and Inlet of Pump
Go
4 More Manometric Head Calculators
Go
Mass Moment of Inertia of Cone
(1)
Verified
Mass moment of inertia of cone about x-axis passing through centroid, perpendicular to base
Go
1 More Mass Moment of Inertia of Cone Calculators
Go
Mass Moment of Inertia of Cuboid
(3)
Verified
Mass moment of inertia of cuboid about x-axis passing through centroid, parallel to length
Go
Verified
Mass moment of inertia of cuboid about y-axis passing through centroid
Go
Verified
Mass moment of inertia of cuboid about z-axis passing through centroid
Go
Mass Moment of Inertia of Rod
(2)
Verified
Mass moment of inertia of rod about y-axis passing through centroid, perpendicular to length of rod
Go
Verified
Mass moment of inertia of rod about z-axis passing through centroid, perpendicular to length of rod
Go
Mass Moment of Inertia of Solid Cylinder
(3)
Verified
Mass moment of inertia of solid cylinder about x-axis through centroid, perpendicular to length
Go
Verified
Mass moment of inertia of solid cylinder about y-axis through centroid, parallel to length
Go
Verified
Mass moment of inertia of solid cylinder about z-axis through centroid, perpendicular to length
Go
Mass Moment of Inertia of Solid Sphere
(3)
Verified
Mass moment of inertia of solid sphere about x-axis passing through centroid
Go
Verified
Mass moment of inertia of solid sphere about y-axis passing through centroid
Go
Verified
Mass moment of inertia of solid sphere about z-axis passing through centroid
Go
Mass Moment of Inertia of Triangular Plate
(1)
Verified
Mass moment of inertia of triangular plate about z-axis through centroid, perpendicular to plate
Go
2 More Mass Moment of Inertia of Triangular Plate Calculators
Go
Maximum Principal Stress Theory
(4)
Created
Allowable stress in brittle material under compressive loading
Go
Created
Allowable stress in brittle material under tensile loading
Go
Created
Allowable stress in ductile material under compressive loading
Go
Created
Allowable stress in ductile material under tensile loading
Go
Maximum Shear Stress Theory
(2)
Created
Shear yield strength given tensile yield strength
Go
Created
Tensile yield strength given shear yield strength
Go
1 More Maximum Shear Stress Theory Calculators
Go
Minor Diameter
(4)
Created
Minor Diameter of External Thread given Height of Fundamental Triangle
Go
Created
Minor Diameter of External Thread given Pitch and Major Diameter of Internal Thread
Go
Created
Minor Diameter of Internal Thread given Height of Fundamental Triangle
Go
Created
Minor Diameter of Internal Thread given Pitch and Major Diameter of Internal Thread
Go
Module of Gear
(4)
Created
Module of Gear given Beam Strength and Lewis Form Factor
Go
Created
Module of Gear given Diametral Pitch
Go
Created
Module of Gear given Pitch Circle Diameter
Go
Created
Module of Gear given Tolerance Factor
Go
Mohr's Circle When A Body Is Subjected To Two Mutual Perpendicular And A Simple Shear Stress
(7)
Created
Condition for maximum value of normal stress
Go
Created
Condition for Minimum Normal Stress
Go
Created
Maximum value of normal stress
Go
Created
Maximum value of shear stress
Go
Created
Minimum value of normal stress
Go
Created
Normal Stress on Oblique Plane with Two Mutually Perpendicular Unequal Stresses
Go
Created
Shear Stress on Oblique Plane given Two Mutually Perpendicular and Unequal Stress
Go
Mohr's Circle When A Body Is Subjected To Two Mutual Perpendicular Tensile Stress of Unequal Intensity
(4)
Created
Maximum shear stress
Go
Created
Normal Stress on Oblique Plane with Two Mutually Perpendicular Forces
Go
Created
Radius of mohr's circle(two mutually perpendicular stresses of unequal intensities)
Go
Created
Tangential Stress on Oblique Plane with Two Mutually Perpendicular Forces
Go
Mohr's Circle When A Body Is Subjected To Two Mutual Perpendicular Tensile Stress Which Are Unequal And Unlike
(3)
Created
Normal Stress on Oblique Plane for Two Perpendicular Unequal and Unlike Stress
Go
Created
Radius of mohr's circle(Unequal and unlike mutually perpendicular stresses)
Go
Created
Shear Stress on Oblique Plane for Two Perpendicular Unequal and Unlike Stress
Go
Notch Sensitivity for Fluctuating Loads
(5)
Created
Fatigue Stress Concentration Factor
Go
Created
Fatigue Stress Concentration Factor given Notch Sensitivity Factor
Go
Created
Notch Sensitivity Factor
Go
Created
Notch Sensitivity Factor given Fatigue Stress Concentration Factor
Go
Created
Theoretical Stress for Fluctuating Load
Go
Piston pumps
(3)
Verified
Area of piston pump given volumetric displacement
Go
Verified
Theoretical volumetric displacement given area of piston and stroke length
Go
Verified
Theoretical volumetric displacement given bore diameter and swash plate inclination
Go
16 More Piston pumps Calculators
Go
Pitch
(8)
Created
Pitch of bolt thread
Go
Created
Pitch of Screw Threads given Radius of Root
Go
Created
Pitch of Threads given Height of Basic Profile
Go
Created
Pitch of Threads given Height of Fundamental Triangle
Go
Created
Pitch of Threads given Major Diameter of Internal Thread
Go
Created
Pitch of Threads given Minor Diameter of Internal Thread
Go
Created
Pitch of Threads given Pitch Diameter of External Thread
Go
Created
Pitch of Threads given Pitch Diameter of Internal Thread
Go
Pitch Circle Diameter
(8)
Created
Circular Pitch of Gear given Diameter and Number of Teeth
Go
Created
Diametral Pitch of Gear given Circular Pitch
Go
Created
Diametral Pitch of Gear given Number of teeth and Pitch Circle Diameter
Go
Created
Pitch Circle Diameter of Gear given Module and Number of Teeth
Go
Created
Pitch Circle Diameter of holes of Medium Size Gear
Go
Created
Pitch Circle Diameter of Large Size Gear
Go
Created
Pitch Circle Diameter of Medium Size Gear
Go
Created
Pitch Circle Diameter of Small Size Gear
Go
1 More Pitch Circle Diameter Calculators
Go
Pitch Diameter
(4)
Created
Pitch Diameter of External Thread given Height of Fundamental Triangle
Go
Created
Pitch Diameter of External Thread given Pitch
Go
Created
Pitch Diameter of Internal Thread given Height of Fundamental Triangle
Go
Created
Pitch Diameter of Internal Thread given Pitch
Go
Possible surface defects in EDM
(7)
Verified
Capacitance responsible for given overcut
Go
Verified
Depth of machined surface
Go
Verified
Depth of machined surface when taper is given
Go
Verified
Empirical constant for taper
Go
Verified
Largest size of hole when taper is given
Go
Verified
Smaller diameter of crater when Taper is known
Go
Verified
Smallest diameter of hole when empirical constant is known
Go
8 More Possible surface defects in EDM Calculators
Go
Power
(5)
Created
Frictional Power Loss in Terms of Pumping Power and Total Power Required
Go
Created
Pumping Power in Terms of Flow of Lubricant and Pressure of Lubricant
Go
Created
Pumping Power in terms of Inlet and Outlet Pressure
Go
Created
Pumping Power in Terms of Total Power Required and Frictional Power Loss
Go
Created
Total Power Required in Terms of Pumping Power and Frictional Power Loss
Go
Power in Centrifugal Pump
(3)
Verified
Impeller power
Go
Verified
Output power
Go
Verified
Static power
Go
Practical cycles
(2)
Verified
Efficiency of turbine in actual gas turbine cycle
Go
Verified
Work of turbine without pressure losses
Go
8 More Practical cycles Calculators
Go
Pressure
(8)
Created
Inlet Pressure in Terms of Pumping Power
Go
Created
Outlet Pressure in Terms of Pumping Power
Go
Created
Pressure Difference in Terms of Flow of Lubricant
Go
Created
Pressure of Lubricating Oil in Recess in Terms of Load acting on Bearing
Go
Created
Pressure of Lubricating Oil in Terms Pumping Power
Go
Created
Unit Bearing Pressure in Terms of Radial Load Acting on the Bearing
Go
Created
Unit Bearing Pressure in Terms of Sommerfeld Number of Bearing
Go
Created
Unit Bearing Pressure in Terms of Temperature Rise Variable
Go
Pressure Head
(3)
Verified
Pressure head due to acceleration in the delivery pipe
Go
Verified
Pressure head due to acceleration in the suction pipe
Go
Verified
Pressure head in case the connecting rod is not very long as compared to crank length
Go
1 More Pressure Head Calculators
Go
Principal Stresses and Strains
(4)
Created
Condition for maximum or minimum shear stress(Member under direct and shear stress)
Go
Created
Major principal stress if Member is subjected to two perpendicular direct stress and shear stress
Go
Created
Maximum shear stress(Member under direct and shear stress)
Go
Created
Minor principal stress if Member is subjected to two perpendicular direct stress and shear stress
Go
16 More Principal Stresses and Strains Calculators
Go
Projectiles
(7)
Verified
Direction of projectile at given height above point of projection
Go
Verified
Initial velocity of particle given horizontal component of velocity
Go
Verified
Initial velocity of particle given time of flight of projectile
Go
Verified
Initial velocity of particle given vertical component of velocity
Go
Verified
Time of flight of projectile on horizontal plane
Go
Verified
Velocity of projectile at given height above point of projection
Go
Verified
Vertical component of velocity of particle projected upwards from point at angle
Go
7 More Projectiles Calculators
Go
Properties of surfaces and solids
(2)
Verified
Moment of inertia given radius of gyration
Go
Verified
Moment of inertia of circle about diametrical axis
Go
1 More Properties of surfaces and solids Calculators
Go
Radial Clearance
(6)
Created
Radial Clearance in Terms of Eccentricity Ratio and Minimum Film Thickness of Bearing
Go
Created
Radial Clearance in Terms of Minimum Film Thickness Variable of Bearing
Go
Created
Radial Clearance in Terms of Sommerfeld Number of Bearing
Go
Created
Radial Clearance of Bearing in Terms of Eccentricity and Clearance
Go
Created
Radial Clearance of Bearing in Terms of Flow Variable
Go
Created
Radial Clearance of Bearing in Terms of Radius of Bearing and Journal
Go
Rated Bearing Life
(7)
Created
Rated Bearing Life in Hours
Go
Created
Rated Bearing Life in Million Revolutions for Ball Bearings
Go
Created
Rated Bearing Life in Million Revolutions for Roller Bearings
Go
Created
Rated Bearing Life in Million Revolutions given Bearing Speed
Go
Created
Rated Bearing Life in Million Revolutions given Dynamic Load Capacity
Go
Created
Rated Bearing Life in Million Revolutions given Median Life
Go
Created
Rated Bearing Life in Million Revolutions given Nominal Life
Go
Reciprocating pumps
(5)
Verified
Acceleration of the piston
Go
Verified
Force required to accelerate the water in the pipe
Go
Verified
Power Required to Drive Double acting Reciprocating Pump
Go
Verified
The corresponding distance x travelled by the piston
Go
Verified
Velocity of the piston
Go
20 More Reciprocating pumps Calculators
Go
Rocket propulsion
(5)
Verified
Acceleration of rocket
Go
Verified
Photon propulsion thrust
Go
Verified
Power required to produce Exhaust Jet Velocity
Go
Verified
Thrust given exhaust velocity and mass flow rate
Go
Verified
Thrust given mass and acceleration of rocket
Go
Self Aligning Ball Bearings
(8)
Created
Axial Thrust Load on Self Aligning Ball Bearing when Fa by Fr is greater than e
Go
Created
Axial Thrust Load on Self Aligning Ball Bearing when Fa by Fr is less than or equal to e
Go
Created
Equivalent Dynamic Load on Self Aligning Ball Bearing when Fa by Fr is greater than e
Go
Created
Equivalent Dynamic Load on Self Aligning Ball Bearing when Fa by Fr is less than or equal to e
Go
Created
Factor Y1 of Self Aligning Ball Bearing when Fa by Fr is less than or equal to e
Go
Created
Factor Y2 of Self Aligning Ball Bearing when Fa by Fr is greater than e
Go
Created
Radial Load on Self Aligning Ball Bearing when Fa by Fr greater than e
Go
Created
Radial Load on Self Aligning Ball Bearing when Fa by Fr is less than or equal to e
Go
Service Factor
(3)
Created
Service factor for gear in terms of torque
Go
Created
Service factor for motor
Go
Created
Service factor in terms of tangential force
Go
Shear and Tensile Stress
(5)
Created
Shear Stress at Core Diameter given Shear Yield Strength of Threaded Fastener
Go
Created
Shear Stress at Core Diameter of Threaded Fastener given Tensile Force
Go
Created
Shear Stress at Core Diameter of Threaded Fasteners given Tensile Yield Strength
Go
Created
Tensile Stress in Core Cross-Section of Bolt given Tensile Force and Core Diameter
Go
Created
Tensile Stress in Core Cross-Section of Bolt given Tensile Yield Strength
Go
Sliding Bearing Parameters
(9)
Created
Axial Length of Bearing in Terms of Flow Variable
Go
Created
Axial Length of Bearing in Terms of Unit Bearing Pressure
Go
Created
Load acting on Bearing in Terms of Flow of Lubricant
Go
Created
Load Acting on Bearing in Terms of Load Coefficient and Pressure of Lubricating Oil in Recess
Go
Created
Outflow of Lubricant in Terms of Flow Ratio Variable
Go
Created
Radial Load Acting on Bearing in Terms of Unit Bearing Pressure
Go
Created
Radius of Bearing in Terms of Minimum Film Thickness
Go
Created
Radius of Bearing in Terms of Radial Clearance
Go
Created
Tangential Force in Sliding Contact Bearing
Go
Soderberg And Goodman Lines
(15)
Created
Goodman Line Amplitude Stress
Go
Created
Goodman Line Endurance Limit
Go
Created
Goodman Line Mean Stress
Go
Created
Goodman Line Ultimate Tensile Strength
Go
Created
Limiting value of Mean Stress
Go
Created
Limiting value of Stress Amplitude
Go
Created
Permissible Mean Stress for Fluctuating load
Go
Created
Permissible Stress Amplitude for Fluctuating load
Go
Created
Slope of Line OE in Modified Goodman Diagram given Bending Amplitude and Mean Bending Moment
Go
Created
Slope of Line OE in Modified Goodman Diagram given Force Amplitude and Mean Force
Go
Created
Slope of Line OE in Modified Goodman Diagram given Stress Amplitude and Mean Stress
Go
Created
Soderberg Line Amplitude Stress
Go
Created
Soderberg Line Endurance Limit
Go
Created
Soderberg Line Mean stress
Go
Created
Soderberg Line Tensile Yield Strength
Go
Specific Speed of Centrifugal Pump
(3)
Verified
Angular Speed given Specific Speed of Pump
Go
Verified
Head of Pump given Specific Speed
Go
Verified
Specific Speed of Pump
Go
2 More Specific Speed of Centrifugal Pump Calculators
Go
Spherical Roller Bearing
(8)
Created
Axial Thrust Load on Spherical Roller Bearing when Fa by Fr is greater than e
Go
Created
Axial Thrust Load on Spherical Roller Bearing when Fa by Fr is less than or equal to e
Go
Created
Equivalent Dynamic Load on Spherical Roller Bearing when Fa by Fr is greater than e
Go
Created
Equivalent Dynamic Load on Spherical Roller Bearing when Fa by Fr is less than equal to e
Go
Created
Factor Y1 of Spherical Roller Bearing when Fa by Fr is less than or equal to e
Go
Created
Factor Y2 of Spherical Roller Bearing when Fa by Fr is greater than e
Go
Created
Radial Load on Spherical Roller Bearing when Fa by Fr greater than e
Go
Created
Radial Load on Spherical Roller Bearing when Fa by Fr is less than equal to e
Go
Strength of Gear Tooth
(3)
Created
Beam Strength of Gear Tooth
Go
Created
Lewis Form Factor of Gear Tooth
Go
Created
Permissible Bending Stress in Gear Teeth
Go
1 More Strength of Gear Tooth Calculators
Go
Stress Concentration Factors
(4)
Created
Highest value of actual stress near discontinuity
Go
Created
Mean Stress for Fluctuating load
Go
Created
Theoretical stress concentration factor
Go
Created
Theoretical stress concentration factor for elliptical crack
Go
4 More Stress Concentration Factors Calculators
Go
Stresses due to Bending Moment
(6)
Created
Area Moment of Inertia of Circular Cross-Section about Diameter
Go
Created
Area Moment of inertia of rectangular cross-section along centroidal axis parallel to breadth
Go
Created
Area Moment of inertia of rectangular cross-section along centroidal axis parallel to length
Go
Created
Area Moment of Inertia of specimen given bending moment and bending stress
Go
Created
Bending moment in specimen given bending stress
Go
Created
Bending stress in specimen due to bending moment
Go
Tangential Force on Gear
(4)
Created
Tangential Force on Gear due to Rated Torque
Go
Created
Tangential Force on Gear given Pressure angle and Resultant Force
Go
Created
Tangential Force on Gear given Radial Force and Pressure Angle
Go
Created
Tangential Force on Gear given Torque and Pitch Circle Diameter
Go
Tangential Velocity of Impeller
(2)
Verified
Tangential Velocity of Impeller at Inlet
Go
Verified
Tangential Velocity of Impeller at Inlet using Angular Velocity
Go
3 More Tangential Velocity of Impeller Calculators
Go
Taper Roller Bearing
(3)
Created
Axial Thrust Load on Taper Roller Bearing when Fa by Fr is greater than e
Go
Created
Equivalent Dynamic Load on Taper Roller Bearing when Fa by Fr is greater than e
Go
Created
Radial Load on Taper Roller Bearing when Fa by Fr is greater than e
Go
Temperature Rise
(7)
Created
Absolute Temperature in Terms of Viscosity
Go
Created
Inlet Temperature in Terms of Outlet Temperature and Temperature Rise
Go
Created
Outlet Temperature in Terms of Inlet Temperature and Temperature Rise
Go
Created
Rise in Temperature in Terms of Inlet and Outlet Temperature of Lubricant
Go
Created
Specific Heat of Lubricating Oil in Terms of Temperature Rise Variable
Go
Created
Temperature Rise of Lubricant in Terms of Temperature Rise Variable
Go
Created
Temperature Rise Variable in Terms of Temperature rise of Lubricant
Go
Thermal Stress
(6)
Created
Extension of rod if rod is free to extend
Go
Created
Thermal strain
Go
Created
Thermal Strain given Coefficient of Linear Expansion
Go
Created
Thermal Strain given Thermal Stress
Go
Created
Thermal Stress given Coefficient of Linear Expansion
Go
Created
Thermal Stress given Thermal Strain
Go
5 More Thermal Stress Calculators
Go
Thick Cylinder
(10)
Created
External Pressure acting on Thick Cylinder given Radial Stress
Go
Created
External Pressure acting on Thick Cylinder given Tangential Stress
Go
Created
Internal Pressure in Thick Cylinder given Longitudinal Stress
Go
Created
Internal Pressure in Thick Cylinder given Radial Stress
Go
Created
Internal Pressure in Thick Cylinder given Tangential Stress
Go
Created
Longitudinal Stress in Thick Cylinder subjected to Internal Pressure
Go
Created
Radial Stress in Thick Cylinder subjected to External Pressure
Go
Created
Radial Stress in Thick Cylinder subjected to Internal Pressure
Go
Created
Tangential Stress in Thick Cylinder subjected to External Pressure
Go
Created
Tangential Stress in Thick Cylinder subjected to Internal Pressure
Go
Thin Cylinder
(14)
Created
Cylinder Wall Thickness of Thin Cylinder given Longitudinal Stress
Go
Created
Cylinder Wall Thickness of Thin Cylinder given Tangential Stress
Go
Created
Inner Diameter of Thin Cylinder given Longitudinal Stress
Go
Created
Inner Diameter of Thin Cylinder given Tangential Stress
Go
Created
Inner Diameter of Thin Spherical Shell given Permissible Tensile Stress
Go
Created
Inner Diameter of Thin Spherical Shell given Volume
Go
Created
Internal Pressure in Thin Cylinder given Longitudinal Stress
Go
Created
Internal Pressure in Thin Cylinder given Tangential Stress
Go
Created
Internal Pressure in Thin Spherical Shell given Permissible Tensile Stress
Go
Created
Longitudinal Stress in Thin Cylinder given Internal Pressure
Go
Created
Permissible Tensile Stress in Thin Spherical Shell
Go
Created
Tangential Stress in Thin Cylinder given Internal Pressure
Go
Created
Thickness of Thin Spherical Shell given Permissible tensile stress
Go
Created
Volume of Thin Spherical Shell given Inner Diameter
Go
Thrust Ball Bearing
(3)
Created
Minimum Axial Load on Thrust Ball Bearing
Go
Created
Minimum Load Factor for Thrust Ball Bearing
Go
Created
Rotational Speed of Bearing given Maximum Axial Load and Maximum Load Factor
Go
Torque on Gear
(5)
Created
Maximum Torque of Gear given Service Factor
Go
Created
Rated Torque of Gear given Service Factor
Go
Created
Rated Torque of Spur Gear Motor given Service Factor
Go
Created
Starting Torque of Spur Gear Motor given Service Factor
Go
Created
Torque Transmitted by Gear given Tangential Force and Pitch Circle Diameter
Go
Types of Stresses
(14)
Created
Axial Push Acting on Body given Compressive Stress
Go
Created
Compressive Strain on Body
Go
Created
Compressive Stress given Axial Push Acting on Body
Go
Created
Compressive Stress given Resisting Force
Go
Created
Resisting Force given Compressive Stress
Go
Created
Resisting Force given Tensile Stress
Go
Created
Shear Resistance given Shear Stress
Go
Created
Shear Strain given Transversal Displacement
Go
Created
Shear Stress given Shear Resistance
Go
Created
Tensile Load given Tensile Stress
Go
Created
Tensile Strain on Body
Go
Created
Tensile Stress given Resisting Force
Go
Created
Tensile Stress given Tensile Load
Go
Created
Transversal Displacement given Shear Strain
Go
Undamped free vibration
(2)
Verified
Frequency of vibration
Go
Verified
Natural frequency of torsional vibration system
Go
2 More Undamped free vibration Calculators
Go
Unified and national threads
(4)
Verified
Diameter of the wire used Unified and national threads
Go
Verified
Micrometer measurement/reading
Go
Verified
Pitch diameter Unified national threads
Go
Verified
pitch of the screw threads
Go
USA standard taper pipe
(4)
Verified
Diameter of the wire used USA standard taper pipe
Go
Verified
Micrometer reading/measurement USA standard taper pipe
Go
Verified
Pitch diameter USA standard taper pipe
Go
Verified
pitch of the screw USA standard taper
Go
Vane pumps
(7)
Verified
Angular speed of vane pump given theoretical discharge
Go
Verified
Eccentricity of vane pump
Go
Verified
Theoretical Discharge of Vane Pump
Go
Verified
Theoretical Discharge of Vane Pump given diameter of Camring and Rotor
Go
Verified
Vane pump constant
Go
Verified
Volumetric displacement of vane pumps
Go
Verified
Width of Rotor of Vane Pump given Volumetric Displacement
Go
1 More Vane pumps Calculators
Go
Velocity ratio
(6)
Verified
Velocity ratio of differential screw jack
Go
Verified
Velocity ratio of simple screw jack
Go
Verified
Velocity ratio of worm and worm wheel
Go
Verified
Velocity ratio of worm and worm wheel, if worm has multiple threads
Go
Verified
Velocity ratio of worm and worm wheel, if worm is double threaded
Go
Verified
Velocity ratio of worm geared pulley block
Go
7 More Velocity ratio Calculators
Go
Viscosity and Density of Lubricant
(12)
Created
Absolute Viscosity Of Oil in Terms Of Tangential Force
Go
Created
Area of moving plate of sliding contact bearing in terms of absolute viscosity
Go
Created
Density in Terms of Kinematic Viscosity and Viscosity for Sliding Contact Bearing
Go
Created
Density of Lubricating Oil in Terms of Temperature Rise Variable
Go
Created
Kinematic Viscosity in Centi-Stokes in Terms of Viscosity in Saybolt's Unversal Seconds
Go
Created
Kinematic Viscosity in terms of Viscosity and Density For Sliding Contact Ball Bearing
Go
Created
Velocity of Moving Plate in Terms of Absolute Viscosity
Go
Created
Viscosity in Terms of Absolute Temperature for Sliding Contact Bearing
Go
Created
Viscosity in Terms of Flow Coefficient and Flow of Lubricant
Go
Created
Viscosity in Terms of Kinematic Viscosity and Density For Sliding Contact Bearing
Go
Created
Viscosity of Lubricant in Terms of Flow of Lubricant
Go
Created
Viscosity of Lubricant in Terms of Sommerfeld Number of Bearing
Go
Volume of Liquid
(1)
Verified
Volume of liquid delivered in one revolution of crank- double acting reciprocating pump
Go
2 More Volume of Liquid Calculators
Go
Volumetric Strain
(9)
Created
Bulk Modulus given Direct Stress
Go
Created
Bulk Modulus using Young's Modulus
Go
Created
Direct stress for given bulk modulus and volumetric strain
Go
Created
Poisson's Ratio using Bulk Modulus and Young's Modulus
Go
Created
Volumetric Strain given Bulk Modulus
Go
Created
Volumetric strain of cylindrical rod
Go
Created
Volumetric Strain using Young's Modulus and Poisson's Ratio
Go
Created
Young's Modulus using Bulk Modulus
Go
Created
Young's Modulus using Poissson's Ratio
Go
8 More Volumetric Strain Calculators
Go
Work Done
(1)
Verified
Work Done by Double Acting Reciprocating Pump
Go
9 More Work Done Calculators
Go
Work Done per Second for Centrifugal Pumps
(2)
Verified
Work done per second for Centrifugal pumps
Go
Verified
Work done per second given Torque
Go
3 More Work Done per Second for Centrifugal Pumps Calculators
Go
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