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Torque Transmitted by the Pulley When Bending Stress is Given Solution

STEP 0: Pre-Calculation Summary
Formula Used
torque_transmitted_by_the_pulley = Bending Stress*(pi*Number of arms*Minor axis^3)/16
Mt = 𝛔b*(pi*A*b^3)/16
This formula uses 1 Constants, 3 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
Bending Stress - The Bending Stress is the normal stress that is induced at a point in a body subjected to loads that cause it to bend (Measured in Newton per Square Meter)
Number of arms- Number of arms in rotary distributor assembly
Minor axis - Minor axis is the line segment that is perpendicular to the major axis and intersects at the center of the ellipse. (Measured in Centimeter)
STEP 1: Convert Input(s) to Base Unit
Bending Stress: 50 Newton per Square Meter --> 50 Pascal (Check conversion here)
Number of arms: 2 --> No Conversion Required
Minor axis: 5 Centimeter --> 0.05 Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Mt = 𝛔b*(pi*A*b^3)/16 --> 50*(pi*2*0.05^3)/16
Evaluating ... ...
Mt = 0.00245436926061703
STEP 3: Convert Result to Output's Unit
0.00245436926061703 Newton Meter -->2.45436926061703 Newton Millimeter (Check conversion here)
FINAL ANSWER
2.45436926061703 Newton Millimeter <-- Torque Transmitted by the Pulley
(Calculation completed in 00.016 seconds)

10+ Arms of Cast Iron Pulley Calculators

Radius of Rim When Torque Transmitted by the Pulley is Given
radius_of_rim = Torque Transmitted by the Pulley/(Tangential Force at the end of Each Arm*(Number of arms/2)) Go
Number of Arms of the Pulley When Torque Transmitted by the Pulley is Given
number_of_arms = 2*Torque Transmitted by the Pulley/(Tangential Force at the end of Each Arm*Radius of Rim) Go
Torque Transmitted by the Pulley
torque_transmitted_by_the_pulley = Tangential Force at the end of Each Arm*Radius of Rim*(Number of arms/2) Go
Tangential Force at the End of Each Arm When Torque Transmitted by the Pulley is Given
tangential_force_at_end_of_each_arm = Torque Transmitted by the Pulley/(Radius of Rim*(Number of arms/2)) Go
Radius of Rim When Bending Moment Acting on the Arm is Given
radius_of_rim = Bending moment/Tangential Force at the end of Each Arm Go
Bending Moment Acting on the arm
bending_moment = Tangential Force at the end of Each Arm*Radius of Rim Go
Tangential Force at the End of Each Arm When Bending Moment acting on the Arm is Given
tangential_force_at_end_of_each_arm = Bending moment/Radius of Rim Go
Torque Transmitted by the Pulley When Bending Moment acting on the Arm is Given
torque_transmitted_by_the_pulley = Bending moment*Number of arms/2 Go
Bending Moment acting on the Arm in terms of Torque Transmitted by the Pulley
bending_moment = 2*Torque Transmitted by the Pulley/Number of arms Go
Number of Arms When Bending Moment acting on the Arm is Given
number_of_arms = 2*Torque Transmitted by the Pulley/Bending moment Go

Torque Transmitted by the Pulley When Bending Stress is Given Formula

torque_transmitted_by_the_pulley = Bending Stress*(pi*Number of arms*Minor axis^3)/16
Mt = 𝛔b*(pi*A*b^3)/16

Define Bending Stress?

Bending stress is the normal stress that an object encounters when it is subjected to a large load at a particular point that causes the object to bend and become fatigued. Bending stress occurs when operating industrial equipment and in concrete and metallic structures when they are subjected to a tensile load.

How to Calculate Torque Transmitted by the Pulley When Bending Stress is Given?

Torque Transmitted by the Pulley When Bending Stress is Given calculator uses torque_transmitted_by_the_pulley = Bending Stress*(pi*Number of arms*Minor axis^3)/16 to calculate the Torque Transmitted by the Pulley, The Torque Transmitted by the Pulley When Bending Stress is Given formula is defined as the amount of torque transmitted by the pulley. Torque Transmitted by the Pulley and is denoted by Mt symbol.

How to calculate Torque Transmitted by the Pulley When Bending Stress is Given using this online calculator? To use this online calculator for Torque Transmitted by the Pulley When Bending Stress is Given, enter Bending Stress (𝛔b), Number of arms (A) and Minor axis (b) and hit the calculate button. Here is how the Torque Transmitted by the Pulley When Bending Stress is Given calculation can be explained with given input values -> 2.454369 = 50*(pi*2*0.05^3)/16.

FAQ

What is Torque Transmitted by the Pulley When Bending Stress is Given?
The Torque Transmitted by the Pulley When Bending Stress is Given formula is defined as the amount of torque transmitted by the pulley and is represented as Mt = 𝛔b*(pi*A*b^3)/16 or torque_transmitted_by_the_pulley = Bending Stress*(pi*Number of arms*Minor axis^3)/16. The Bending Stress is the normal stress that is induced at a point in a body subjected to loads that cause it to bend, Number of arms in rotary distributor assembly and Minor axis is the line segment that is perpendicular to the major axis and intersects at the center of the ellipse.
How to calculate Torque Transmitted by the Pulley When Bending Stress is Given?
The Torque Transmitted by the Pulley When Bending Stress is Given formula is defined as the amount of torque transmitted by the pulley is calculated using torque_transmitted_by_the_pulley = Bending Stress*(pi*Number of arms*Minor axis^3)/16. To calculate Torque Transmitted by the Pulley When Bending Stress is Given, you need Bending Stress (𝛔b), Number of arms (A) and Minor axis (b). With our tool, you need to enter the respective value for Bending Stress, Number of arms and Minor axis 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 Torque Transmitted by the Pulley?
In this formula, Torque Transmitted by the Pulley uses Bending Stress, Number of arms and Minor axis. We can use 10 other way(s) to calculate the same, which is/are as follows -
  • torque_transmitted_by_the_pulley = Tangential Force at the end of Each Arm*Radius of Rim*(Number of arms/2)
  • tangential_force_at_end_of_each_arm = Torque Transmitted by the Pulley/(Radius of Rim*(Number of arms/2))
  • radius_of_rim = Torque Transmitted by the Pulley/(Tangential Force at the end of Each Arm*(Number of arms/2))
  • number_of_arms = 2*Torque Transmitted by the Pulley/(Tangential Force at the end of Each Arm*Radius of Rim)
  • bending_moment = Tangential Force at the end of Each Arm*Radius of Rim
  • tangential_force_at_end_of_each_arm = Bending moment/Radius of Rim
  • radius_of_rim = Bending moment/Tangential Force at the end of Each Arm
  • bending_moment = 2*Torque Transmitted by the Pulley/Number of arms
  • number_of_arms = 2*Torque Transmitted by the Pulley/Bending moment
  • torque_transmitted_by_the_pulley = Bending moment*Number of arms/2
Where is the Torque Transmitted by the Pulley When Bending Stress is Given calculator used?
Among many, Torque Transmitted by the Pulley When Bending Stress is Given calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
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