Output Torque on Driven Member given Angular Speed of Driven and Driver Solution

STEP 0: Pre-Calculation Summary
Formula Used
Output Torque or Load Torque on Driven Member = Input Torque on Driving Member*Angular Speed of Driving Member in RPM/Angular Speed of Driven Member in RPM
T2 = T1*N1/N2
This formula uses 4 Variables
Variables Used
Output Torque or Load Torque on Driven Member - (Measured in Newton Meter) - Output torque or load torque on driven member is the measure of the force that can cause an object to rotate about an axis.
Input Torque on Driving Member - (Measured in Newton Meter) - Input torque on driving member is the measure of the force that can cause an object to rotate about an axis.
Angular Speed of Driving Member in RPM - (Measured in Radian per Second) - The Angular Speed of Driving Member in RPM is the rate of change of angular position of the driving or the input member.
Angular Speed of Driven Member in RPM - (Measured in Hertz) - The Angular Speed of Driven Member in RPM is the rate of change of angular position of the driven or the output member.
STEP 1: Convert Input(s) to Base Unit
Input Torque on Driving Member: 17 Newton Meter --> 17 Newton Meter No Conversion Required
Angular Speed of Driving Member in RPM: 1400 Revolution per Minute --> 146.607657160058 Radian per Second (Check conversion here)
Angular Speed of Driven Member in RPM: 700 Revolution per Minute --> 11.6666666666667 Hertz (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
T2 = T1*N1/N2 --> 17*146.607657160058/11.6666666666667
Evaluating ... ...
T2 = 213.628300433227
STEP 3: Convert Result to Output's Unit
213.628300433227 Newton Meter --> No Conversion Required
FINAL ANSWER
213.628300433227 213.6283 Newton Meter <-- Output Torque or Load Torque on Driven Member
(Calculation completed in 00.020 seconds)

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National Institute Of Technology (NIT), Hamirpur
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13 Gear Trains Calculators

Output Torque on Driven Member given Angular Speed of Driven and Driver
Go Output Torque or Load Torque on Driven Member = Input Torque on Driving Member*Angular Speed of Driving Member in RPM/Angular Speed of Driven Member in RPM
Output Torque or Resisting or Load Torque on Driven Member
Go Output Torque or Load Torque on Driven Member = -Input Torque on Driving Member*Angular Speed of Driving Member/Angular Speed of Driven member
Holding or Braking or Fixing Torque on Fixed Member
Go Total Torque = Input Torque on Driving Member*(Angular Speed of Driving Member in RPM/Angular Speed of Driven Member in RPM-1)
Braking or Holding Torque on Fixed Member given Input Torque
Go Total Torque = Input Torque on Driving Member*(Angular Speed of Driving Member/Angular Speed of Driven member-1)
Holding or Braking or Fixing Torque on Fixed Member given Input and Output Torque
Go Total Torque = -(Input Torque on Driving Member+Output Torque or Load Torque on Driven Member)
Speed Ratio of Compound Gear Train
Go Velocity Ratio = Product of Number of Teeth on Driven/Product of Number of Teeth on Drivers
Train Value of Compound Gear Train given product of Teeth on Driven and Driver Gear
Go Train Value = Product of Number of Teeth on Drivers/Product of Number of Teeth on Driven
Velocity Ratio of Compound Belt Drive given Product of Diameter of Driven
Go Velocity Ratio = Product of Diameters of Drivers/Product of Diameters of Drivens
Velocity Ratio of Compound Belt Drive
Go Velocity Ratio = Speed of Last Driven Pulley/Speed of First Driver
Train Value of Compound Gear Train given Speed of Driven and Driver Gear
Go Train Value = Speed of Last Driven Pulley/Speed of First Driver
Velocity Ratio
Go Velocity Ratio = No. of Teeth on Driven/No. of Teeth on Driver
Train Value given Number of Teeth
Go Train Value = No. of Teeth on Driver/No. of Teeth on Driven
Train Value given Speed of Follower and Driver
Go Train Value = Speed of Follower/Speed of Driver

Output Torque on Driven Member given Angular Speed of Driven and Driver Formula

Output Torque or Load Torque on Driven Member = Input Torque on Driving Member*Angular Speed of Driving Member in RPM/Angular Speed of Driven Member in RPM
T2 = T1*N1/N2

What is output torque?

Torque forms part of the basic specification of an engine. For output torque, the power output of an engine is expressed as its torque multiplied by its rotational speed of the axis. Internal combustion engines produce useful torque only over a limited range of rotational speeds (typically from around 1,000–6,000 rpm for a small car).

How to Calculate Output Torque on Driven Member given Angular Speed of Driven and Driver?

Output Torque on Driven Member given Angular Speed of Driven and Driver calculator uses Output Torque or Load Torque on Driven Member = Input Torque on Driving Member*Angular Speed of Driving Member in RPM/Angular Speed of Driven Member in RPM to calculate the Output Torque or Load Torque on Driven Member, Output Torque on Driven Member given Angular Speed of Driven and Driver is the measure of the force that can cause an object to rotate about an axis. Output Torque or Load Torque on Driven Member is denoted by T2 symbol.

How to calculate Output Torque on Driven Member given Angular Speed of Driven and Driver using this online calculator? To use this online calculator for Output Torque on Driven Member given Angular Speed of Driven and Driver, enter Input Torque on Driving Member (T1), Angular Speed of Driving Member in RPM (N1) & Angular Speed of Driven Member in RPM (N2) and hit the calculate button. Here is how the Output Torque on Driven Member given Angular Speed of Driven and Driver calculation can be explained with given input values -> 213.6283 = 17*146.607657160058/11.6666666666667.

FAQ

What is Output Torque on Driven Member given Angular Speed of Driven and Driver?
Output Torque on Driven Member given Angular Speed of Driven and Driver is the measure of the force that can cause an object to rotate about an axis and is represented as T2 = T1*N1/N2 or Output Torque or Load Torque on Driven Member = Input Torque on Driving Member*Angular Speed of Driving Member in RPM/Angular Speed of Driven Member in RPM. Input torque on driving member is the measure of the force that can cause an object to rotate about an axis, The Angular Speed of Driving Member in RPM is the rate of change of angular position of the driving or the input member & The Angular Speed of Driven Member in RPM is the rate of change of angular position of the driven or the output member.
How to calculate Output Torque on Driven Member given Angular Speed of Driven and Driver?
Output Torque on Driven Member given Angular Speed of Driven and Driver is the measure of the force that can cause an object to rotate about an axis is calculated using Output Torque or Load Torque on Driven Member = Input Torque on Driving Member*Angular Speed of Driving Member in RPM/Angular Speed of Driven Member in RPM. To calculate Output Torque on Driven Member given Angular Speed of Driven and Driver, you need Input Torque on Driving Member (T1), Angular Speed of Driving Member in RPM (N1) & Angular Speed of Driven Member in RPM (N2). With our tool, you need to enter the respective value for Input Torque on Driving Member, Angular Speed of Driving Member in RPM & Angular Speed of Driven Member in RPM and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Output Torque or Load Torque on Driven Member?
In this formula, Output Torque or Load Torque on Driven Member uses Input Torque on Driving Member, Angular Speed of Driving Member in RPM & Angular Speed of Driven Member in RPM. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Output Torque or Load Torque on Driven Member = -Input Torque on Driving Member*Angular Speed of Driving Member/Angular Speed of Driven member
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