Lift of Sleeve Corresponding to Deflection Calculator

✖Deflection of center of leaf spring is a numerical measurement of how far apart objects or points are.ⓘ Deflection of Center of Leaf Spring [δ]			+10% -10%
✖Distance between fixed ends of spring is a numerical measurement of how far apart objects or points are.ⓘ Distance between Fixed Ends of Spring [l]			+10% -10%

✖Lift of sleeve corresponding to deflection is the vertical distance which the sleeve travel due to change in equilibrium speed.ⓘ Lift of Sleeve Corresponding to Deflection [λ]

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Lift of Sleeve Corresponding to Deflection Solution

STEP 0: Pre-Calculation Summary

Formula Used

Lift of Sleeve Corresponding to Deflection = (2.4*Deflection of Center of Leaf Spring^2)/Distance between Fixed Ends of Spring
λ = (2.4*δ^2)/l
This formula uses 3 Variables

Variables Used

Lift of Sleeve Corresponding to Deflection - (Measured in Meter) - Lift of sleeve corresponding to deflection is the vertical distance which the sleeve travel due to change in equilibrium speed.
Deflection of Center of Leaf Spring - (Measured in Meter) - Deflection of center of leaf spring is a numerical measurement of how far apart objects or points are.
Distance between Fixed Ends of Spring - (Measured in Meter) - Distance between fixed ends of spring is a numerical measurement of how far apart objects or points are.

STEP 1: Convert Input(s) to Base Unit

Deflection of Center of Leaf Spring: 0.04 Meter --> 0.04 Meter No Conversion Required
Distance between Fixed Ends of Spring: 0.013 Meter --> 0.013 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

λ = (2.4*δ^2)/l --> (2.4*0.04^2)/0.013

Evaluating ... ...

λ = 0.295384615384615

STEP 3: Convert Result to Output's Unit

0.295384615384615 Meter --> No Conversion Required

FINAL ANSWER

0.295384615384615 ≈ 0.295385 Meter <-- Lift of Sleeve Corresponding to Deflection

(Calculation completed in 00.020 seconds)

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National Institute Of Technology (NIT), Hamirpur

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< Lift of the Sleeve Calculators

Lift of Sleeve at Maximum Radius of Rotation for Hartnell Governor

LaTeX Go Lift of Sleeve for Maximum Position = (Maximum Radius of Rotation-Radius of Rotation if Governor is in Mid-Position)*Length of Sleeve Arm of Lever/Length of Ball Arm of Lever

Lift of Sleeve at Minimum Radius of Rotation for Hartnell Governor

LaTeX Go Lift of Sleeve for Minimum Position = (Radius of Rotation if Governor is in Mid-Position-Minimum Radius of Rotation)*Length of Sleeve Arm of Lever/Length of Ball Arm of Lever

Total Lift of Sleeve for Hartnell Governor

LaTeX Go Total lift of sleeve = (Lift of Sleeve for Maximum Position-Lift of Sleeve for Minimum Position)*Length of Sleeve Arm of Lever/Length of Ball Arm of Lever

Lift of Sleeve Corresponding to Deflection

LaTeX Go Lift of Sleeve Corresponding to Deflection = (2.4*Deflection of Center of Leaf Spring^2)/Distance between Fixed Ends of Spring

Lift of Sleeve Corresponding to Deflection Formula

LaTeX Go

Lift of Sleeve Corresponding to Deflection = (2.4*Deflection of Center of Leaf Spring^2)/Distance between Fixed Ends of Spring
λ = (2.4*δ^2)/l

What is governor in theory of machine?

Governor, in technology, a device that automatically maintains the rotary speed of an engine or other prime mover within reasonably close limits regardless of the load. A typical governor regulates an engine's speed by varying the rate at which fuel is furnished to it.

How to Calculate Lift of Sleeve Corresponding to Deflection?

Lift of Sleeve Corresponding to Deflection calculator uses Lift of Sleeve Corresponding to Deflection = (2.4*Deflection of Center of Leaf Spring^2)/Distance between Fixed Ends of Spring to calculate the Lift of Sleeve Corresponding to Deflection, Lift of Sleeve Corresponding to Deflection formula is defined as a measure of the upward force exerted on the sleeve of a cantilever beam when it is subjected to a certain amount of deflection, providing a way to quantify the relationship between the two parameters in structural analysis. Lift of Sleeve Corresponding to Deflection is denoted by λ symbol.

How to calculate Lift of Sleeve Corresponding to Deflection using this online calculator? To use this online calculator for Lift of Sleeve Corresponding to Deflection, enter Deflection of Center of Leaf Spring (δ) & Distance between Fixed Ends of Spring (l) and hit the calculate button. Here is how the Lift of Sleeve Corresponding to Deflection calculation can be explained with given input values -> 0.295385 = (2.4*0.04^2)/0.013.

FAQ

What is Lift of Sleeve Corresponding to Deflection?

Lift of Sleeve Corresponding to Deflection formula is defined as a measure of the upward force exerted on the sleeve of a cantilever beam when it is subjected to a certain amount of deflection, providing a way to quantify the relationship between the two parameters in structural analysis and is represented as λ = (2.4*δ^2)/l or Lift of Sleeve Corresponding to Deflection = (2.4*Deflection of Center of Leaf Spring^2)/Distance between Fixed Ends of Spring. Deflection of center of leaf spring is a numerical measurement of how far apart objects or points are & Distance between fixed ends of spring is a numerical measurement of how far apart objects or points are.

How to calculate Lift of Sleeve Corresponding to Deflection?

Lift of Sleeve Corresponding to Deflection formula is defined as a measure of the upward force exerted on the sleeve of a cantilever beam when it is subjected to a certain amount of deflection, providing a way to quantify the relationship between the two parameters in structural analysis is calculated using Lift of Sleeve Corresponding to Deflection = (2.4*Deflection of Center of Leaf Spring^2)/Distance between Fixed Ends of Spring. To calculate Lift of Sleeve Corresponding to Deflection, you need Deflection of Center of Leaf Spring (δ) & Distance between Fixed Ends of Spring (l). With our tool, you need to enter the respective value for Deflection of Center of Leaf Spring & Distance between Fixed Ends of Spring and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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