Effort Force Applied on Lever given Bending Moment Solution

STEP 0: Pre-Calculation Summary
Formula Used
Effort on Lever = Bending Moment in Lever/(Length of Effort Arm-Diameter of Lever Fulcrum Pin)
P = Mb/(l1-d1)
This formula uses 4 Variables
Variables Used
Effort on Lever - (Measured in Newton) - The Effort on Lever is the force applied to a lever to lift or move a load, demonstrating the principles of mechanical advantage in lever systems.
Bending Moment in Lever - (Measured in Newton Meter) - The Bending Moment in Lever is the measure of the rotational force acting on a lever, influencing its ability to lift or support loads effectively.
Length of Effort Arm - (Measured in Meter) - The Length of Effort Arm is the distance from the fulcrum to the point where effort is applied on a lever, influencing the lever's mechanical advantage.
Diameter of Lever Fulcrum Pin - (Measured in Meter) - The Diameter of Lever Fulcrum Pin is the measurement across the pin that serves as the pivot point in a lever system, affecting its mechanical advantage and stability.
STEP 1: Convert Input(s) to Base Unit
Bending Moment in Lever: 275404 Newton Millimeter --> 275.404 Newton Meter (Check conversion ​here)
Length of Effort Arm: 900 Millimeter --> 0.9 Meter (Check conversion ​here)
Diameter of Lever Fulcrum Pin: 12.3913 Millimeter --> 0.0123913 Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
P = Mb/(l1-d1) --> 275.404/(0.9-0.0123913)
Evaluating ... ...
P = 310.27636389774
STEP 3: Convert Result to Output's Unit
310.27636389774 Newton --> No Conversion Required
FINAL ANSWER
310.27636389774 310.2764 Newton <-- Effort on Lever
(Calculation completed in 00.004 seconds)

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Components of Lever Calculators

Bending stress in lever of rectangular cross section
​ LaTeX ​ Go Bending Stress in Lever Arm = (32*(Effort on Lever*(Length of Effort Arm-Diameter of Lever Fulcrum Pin)))/(pi*Width of Lever Arm*Depth of Lever Arm^2)
Bending stress in lever of elliptical cross section given bending moment
​ LaTeX ​ Go Bending Stress in Lever Arm = (32*Bending Moment in Lever)/(pi*Minor Axis of Lever Ellipse Section*Major Axis of Lever Ellipse Section^2)
Bending stress in lever of rectangular cross section given bending moment
​ LaTeX ​ Go Bending Stress in Lever Arm = (32*Bending Moment in Lever)/(pi*Width of Lever Arm*(Depth of Lever Arm^2))
Maximum bending moment in lever
​ LaTeX ​ Go Bending Moment in Lever = Effort on Lever*(Length of Effort Arm-Diameter of Lever Fulcrum Pin)

Effort Force Applied on Lever given Bending Moment Formula

​LaTeX ​Go
Effort on Lever = Bending Moment in Lever/(Length of Effort Arm-Diameter of Lever Fulcrum Pin)
P = Mb/(l1-d1)

How do you calculate mechanical leverage?

Because levers operate by rotational torque, calculate mechanical advantage by using the arm lengths of the lever. Measure the distances between the fulcrum, or balance point of a lever, and each end. Divide the length of the lever's effort arm by the length of its resistance arm.

How to Calculate Effort Force Applied on Lever given Bending Moment?

Effort Force Applied on Lever given Bending Moment calculator uses Effort on Lever = Bending Moment in Lever/(Length of Effort Arm-Diameter of Lever Fulcrum Pin) to calculate the Effort on Lever, Effort Force Applied on Lever given Bending Moment formula is defined as the force required to balance the bending moment in a lever system, providing a critical design consideration in machine design and mechanical engineering applications. Effort on Lever is denoted by P symbol.

How to calculate Effort Force Applied on Lever given Bending Moment using this online calculator? To use this online calculator for Effort Force Applied on Lever given Bending Moment, enter Bending Moment in Lever (Mb), Length of Effort Arm (l1) & Diameter of Lever Fulcrum Pin (d1) and hit the calculate button. Here is how the Effort Force Applied on Lever given Bending Moment calculation can be explained with given input values -> 310 = 275.404/(0.9-0.0123913).

FAQ

What is Effort Force Applied on Lever given Bending Moment?
Effort Force Applied on Lever given Bending Moment formula is defined as the force required to balance the bending moment in a lever system, providing a critical design consideration in machine design and mechanical engineering applications and is represented as P = Mb/(l1-d1) or Effort on Lever = Bending Moment in Lever/(Length of Effort Arm-Diameter of Lever Fulcrum Pin). The Bending Moment in Lever is the measure of the rotational force acting on a lever, influencing its ability to lift or support loads effectively, The Length of Effort Arm is the distance from the fulcrum to the point where effort is applied on a lever, influencing the lever's mechanical advantage & The Diameter of Lever Fulcrum Pin is the measurement across the pin that serves as the pivot point in a lever system, affecting its mechanical advantage and stability.
How to calculate Effort Force Applied on Lever given Bending Moment?
Effort Force Applied on Lever given Bending Moment formula is defined as the force required to balance the bending moment in a lever system, providing a critical design consideration in machine design and mechanical engineering applications is calculated using Effort on Lever = Bending Moment in Lever/(Length of Effort Arm-Diameter of Lever Fulcrum Pin). To calculate Effort Force Applied on Lever given Bending Moment, you need Bending Moment in Lever (Mb), Length of Effort Arm (l1) & Diameter of Lever Fulcrum Pin (d1). With our tool, you need to enter the respective value for Bending Moment in Lever, Length of Effort Arm & Diameter of Lever Fulcrum Pin 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 Effort on Lever?
In this formula, Effort on Lever uses Bending Moment in Lever, Length of Effort Arm & Diameter of Lever Fulcrum Pin. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Effort on Lever = Length of Load Arm*Load on lever/Length of Effort Arm
  • Effort on Lever = Load on lever/Mechanical Advantage of Lever
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