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Relation between Controlling Force and Radius of Rotation for Stable Governor Formula

GoRelation between Controlling Force and Radius of Rotation for Isochronous Governor Formula

GoRelation between Controlling Force and Radius of Rotation for Unstable Governor Formula

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Controlling Force is the inward force acting on the rotating balls is known as controlling force. Check FAQs

F c = a \cdot r - b

F_c - Controlling Force?a - Distance of Main Spring From Mid Point of Lever?r - Radius of Path of Rotation of Ball?b - Distance of Auxiliary Spring From Mid of Lever?

Relation between Controlling Force and Radius of Rotation for Stable Governor Example

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Here is how the Relation between Controlling Force and Radius of Rotation for Stable Governor equation looks like with Values.

Here is how the Relation between Controlling Force and Radius of Rotation for Stable Governor equation looks like with Units.

Here is how the Relation between Controlling Force and Radius of Rotation for Stable Governor equation looks like.

8.29 = 1.65 \cdot 7 - 3.26

8.29N = 1.65m \cdot 7m - 3.26m

8.29 = 1.65 \cdot 7 - 3.26

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Relation between Controlling Force and Radius of Rotation for Stable Governor Solution

Follow our step by step solution on how to calculate Relation between Controlling Force and Radius of Rotation for Stable Governor?

FIRST Step Consider the formula

F c = a \cdot r - b

Next Step Substitute values of Variables

∴

F c = 1.65m \cdot 7m - 3.26m

Next Step Prepare to Evaluate

∴

F c = 1.65 \cdot 7 - 3.26

LAST Step Evaluate

∴

F c = 8.29N

Relation between Controlling Force and Radius of Rotation for Stable Governor Formula Elements

Variables

Controlling Force

Controlling Force is the inward force acting on the rotating balls is known as controlling force.

Symbol: F_c

Measurement: ForceUnit: N

Note: Value can be positive or negative.

Formulas to find Controlling Force

Distance of Main Spring From Mid Point of Lever

Distance of main spring from mid point of lever is the measurement of how far apart points are.

Symbol: a

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Distance of Main Spring From Mid Point of Lever

Radius of Path of Rotation of Ball

Radius of path of rotation of ball is the horizontal distance from the centre of the ball to the spindle axis in metres.

Symbol: r

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Radius of Path of Rotation of Ball

Distance of Auxiliary Spring From Mid of Lever

Distance of auxiliary spring from mid of lever is the measurement of how far apart points are.

Symbol: b

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Distance of Auxiliary Spring From Mid of Lever

Other Formulas to find Controlling Force

Go Relation between Controlling Force and Radius of Rotation for Isochronous Governor

F c = a \cdot r

Go Relation between Controlling Force and Radius of Rotation for Unstable Governor

F c = a \cdot r + b

Other formulas in Controlling Force category

Go Value of Controlling Force for Decrease in Speed

F c1 = F c - F b

Go Value of Controlling Force for Increase in Speed

F c2 = F c + F b

How to Evaluate Relation between Controlling Force and Radius of Rotation for Stable Governor?

Relation between Controlling Force and Radius of Rotation for Stable Governor evaluator uses Controlling Force = Distance of Main Spring From Mid Point of Lever*Radius of Path of Rotation of Ball-Distance of Auxiliary Spring From Mid of Lever to evaluate the Controlling Force, Relation between Controlling Force and Radius of Rotation for Stable Governor formula is defined as a measure that establishes a correlation between the force required to control a governor and the radius of rotation at which it operates stably, ensuring a balanced and efficient performance. Controlling Force is denoted by F_c symbol.

How to evaluate Relation between Controlling Force and Radius of Rotation for Stable Governor using this online evaluator? To use this online evaluator for Relation between Controlling Force and Radius of Rotation for Stable Governor, enter Distance of Main Spring From Mid Point of Lever (a), Radius of Path of Rotation of Ball (r) & Distance of Auxiliary Spring From Mid of Lever (b) and hit the calculate button.

FAQs on Relation between Controlling Force and Radius of Rotation for Stable Governor

What is the formula to find Relation between Controlling Force and Radius of Rotation for Stable Governor?

The formula of Relation between Controlling Force and Radius of Rotation for Stable Governor is expressed as Controlling Force = Distance of Main Spring From Mid Point of Lever*Radius of Path of Rotation of Ball-Distance of Auxiliary Spring From Mid of Lever. Here is an example- 8.29 = 1.65*7-3.26.

How to calculate Relation between Controlling Force and Radius of Rotation for Stable Governor?

With Distance of Main Spring From Mid Point of Lever (a), Radius of Path of Rotation of Ball (r) & Distance of Auxiliary Spring From Mid of Lever (b) we can find Relation between Controlling Force and Radius of Rotation for Stable Governor using the formula - Controlling Force = Distance of Main Spring From Mid Point of Lever*Radius of Path of Rotation of Ball-Distance of Auxiliary Spring From Mid of Lever.

What are the other ways to Calculate Controlling Force?

Here are the different ways to Calculate Controlling Force-

Controlling Force=Distance of Main Spring From Mid Point of Lever*Radius of Path of Rotation of Ball
Controlling Force=Distance of Main Spring From Mid Point of Lever*Radius of Path of Rotation of Ball+Distance of Auxiliary Spring From Mid of Lever

Can the Relation between Controlling Force and Radius of Rotation for Stable Governor be negative?

Yes, the Relation between Controlling Force and Radius of Rotation for Stable Governor, measured in Force can be negative.

Which unit is used to measure Relation between Controlling Force and Radius of Rotation for Stable Governor?

Relation between Controlling Force and Radius of Rotation for Stable Governor is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Relation between Controlling Force and Radius of Rotation for Stable Governor can be measured.

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Relation between Controlling Force and Radius of Rotation for Stable Governor Formula

​GoRelation between Controlling Force and Radius of Rotation for Isochronous Governor Formula

​GoRelation between Controlling Force and Radius of Rotation for Unstable Governor Formula

Relation between Controlling Force and Radius of Rotation for Stable Governor Example

Relation between Controlling Force and Radius of Rotation for Stable Governor Solution

Relation between Controlling Force and Radius of Rotation for Stable Governor Formula Elements

Other Formulas to find Controlling Force

Other formulas in Controlling Force category

How to Evaluate Relation between Controlling Force and Radius of Rotation for Stable Governor?

FAQs on Relation between Controlling Force and Radius of Rotation for Stable Governor

Variable Name

GoRelation between Controlling Force and Radius of Rotation for Isochronous Governor Formula

GoRelation between Controlling Force and Radius of Rotation for Unstable Governor Formula