FormulaDen.com

Physics Chemistry Math Chemical Engineering Civil Electrical Electronics Electronics and Instrumentation Materials Science Mechanical Production Engineering Financial Health

Controlling Force for Porter Governor given Radius of Rotation of Mid Position Formula

GoControlling Force for Porter Governor Formula

Fx Copy

LaTeX Copy

Force on fluid Element is the sum of pressure and shear forces acting on it within a fluid system. Check FAQs

F = m b \cdot {(\frac{2 \cdot π \cdot N e}{60})}^{2} \cdot r r

F - Force?m_b - Mass of Ball?N_e - Mean Equilibrium Speed in RPM?r_r - Radius of Rotation if Governor is in Mid Position?π - Archimedes' constant?

Controlling Force for Porter Governor given Radius of Rotation of Mid Position Example

With values

With units

Only example

Here is how the Controlling Force for Porter Governor given Radius of Rotation of Mid Position equation looks like with Values.

Here is how the Controlling Force for Porter Governor given Radius of Rotation of Mid Position equation looks like with Units.

Here is how the Controlling Force for Porter Governor given Radius of Rotation of Mid Position equation looks like.

151.2681 = 6 \cdot {(\frac{2 \cdot 3.1416 \cdot 11}{60})}^{2} \cdot 19

151.2681N = 6kg \cdot {(\frac{2 \cdot 3.1416 \cdot 11}{60})}^{2} \cdot 19m

151.2681 = 6 \cdot {(\frac{2 \cdot 3.1416 \cdot 11}{60})}^{2} \cdot 19

Tip: Use pencil ( Pencil

) icon above to edit Input Values and Units.

Calculate

Recalculate

Solution

Copy

Reset

You are here -

Home » Category

Physics » Category

Mechanical » Category

Theory of Machine » fx Controlling Force for Porter Governor given Radius of Rotation of Mid Position

Controlling Force for Porter Governor given Radius of Rotation of Mid Position Solution

Follow our step by step solution on how to calculate Controlling Force for Porter Governor given Radius of Rotation of Mid Position?

FIRST Step Consider the formula

F = m b \cdot {(\frac{2 \cdot π \cdot N e}{60})}^{2} \cdot r r

Next Step Substitute values of Variables

∴

F = 6kg \cdot {(\frac{2 \cdot π \cdot 11}{60})}^{2} \cdot 19m

Next Step Substitute values of Constants

∴

F = 6kg \cdot {(\frac{2 \cdot 3.1416 \cdot 11}{60})}^{2} \cdot 19m

Next Step Prepare to Evaluate

∴

F = 6 \cdot {(\frac{2 \cdot 3.1416 \cdot 11}{60})}^{2} \cdot 19

Next Step Evaluate

∴

F = 151.268136787363N

LAST Step Rounding Answer

∴

F = 151.2681N

Controlling Force for Porter Governor given Radius of Rotation of Mid Position Formula Elements

Variables

Constants

Force

Force on fluid Element is the sum of pressure and shear forces acting on it within a fluid system.

Symbol: F

Measurement: ForceUnit: N

Note: Value can be positive or negative.

Formulas to find Force

Mass of Ball

Mass of Ball is the amount of "matter" in the object.

Symbol: m_b

Measurement: WeightUnit: kg

Note: Value should be greater than 0.

Formulas to find Mass of Ball

Mean Equilibrium Speed in RPM

Mean Equilibrium Speed in RPM is the number of revolutions the drive shaft of your car is making per minute.

Symbol: N_e

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Mean Equilibrium Speed in RPM

Radius of Rotation if Governor is in Mid Position

Radius of Rotation if Governor is in Mid Position is the linear distance from its axis of rotation to a point of interest on the body.

Symbol: r_r

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Radius of Rotation if Governor is in Mid Position

Archimedes' constant

Archimedes' constant is a mathematical constant that represents the ratio of the circumference of a circle to its diameter.

Symbol: π

Value: 3.14159265358979323846264338327950288

Other Formulas to find Force

Go Controlling Force for Porter Governor

F = m b \cdot {ω e}^{2} \cdot r r

Other formulas in Dimensions and Power category

Go Power of Porter Governor if Angle Made by Upper and Lower Arms are Equal

P = \frac{4 \cdot {δ c}^{2} \cdot (m b + M) \cdot g \cdot h}{1 + 2 \cdot δ c}

Go Power of Porter Governor if Angle Made by Upper and Lower Arms are Not Equal

P = (m b + \frac{M}{2} \cdot (1 + q)) \cdot \frac{4 \cdot {δ c}^{2} \cdot g \cdot h}{1 + 2 \cdot δ c}

Go Net Increase in Speed of Porter Governor

s = δ c \cdot N e

Go Coefficient of Insensitiveness for Porter Governor when Lower Arm is Not Attached on Governor

C i = \frac{F S \cdot (1 + q) \cdot r}{2 \cdot F c \cdot h}

How to Evaluate Controlling Force for Porter Governor given Radius of Rotation of Mid Position?

Controlling Force for Porter Governor given Radius of Rotation of Mid Position evaluator uses Force = Mass of Ball*((2*pi*Mean Equilibrium Speed in RPM)/60)^2*Radius of Rotation if Governor is in Mid Position to evaluate the Force, Controlling Force for Porter Governor given Radius of Rotation of Mid Position formula is defined as the force that regulates the movement of the governor, maintaining a balance between the centrifugal force and the weight of the balls, ensuring a stable operation of the engine. Force is denoted by F symbol.

How to evaluate Controlling Force for Porter Governor given Radius of Rotation of Mid Position using this online evaluator? To use this online evaluator for Controlling Force for Porter Governor given Radius of Rotation of Mid Position, enter Mass of Ball (m_b), Mean Equilibrium Speed in RPM (N_e) & Radius of Rotation if Governor is in Mid Position (r_r) and hit the calculate button.

FAQs on Controlling Force for Porter Governor given Radius of Rotation of Mid Position

What is the formula to find Controlling Force for Porter Governor given Radius of Rotation of Mid Position?

The formula of Controlling Force for Porter Governor given Radius of Rotation of Mid Position is expressed as Force = Mass of Ball*((2*pi*Mean Equilibrium Speed in RPM)/60)^2*Radius of Rotation if Governor is in Mid Position. Here is an example- 151.2681 = 6*((2*pi*11)/60)^2*19.

How to calculate Controlling Force for Porter Governor given Radius of Rotation of Mid Position?

With Mass of Ball (m_b), Mean Equilibrium Speed in RPM (N_e) & Radius of Rotation if Governor is in Mid Position (r_r) we can find Controlling Force for Porter Governor given Radius of Rotation of Mid Position using the formula - Force = Mass of Ball*((2*pi*Mean Equilibrium Speed in RPM)/60)^2*Radius of Rotation if Governor is in Mid Position. This formula also uses Archimedes' constant .

What are the other ways to Calculate Force?

Here are the different ways to Calculate Force-

Force=Mass of Ball*Mean Equilibrium Angular Speed^2*Radius of Rotation if Governor is in Mid Position

Can the Controlling Force for Porter Governor given Radius of Rotation of Mid Position be negative?

Yes, the Controlling Force for Porter Governor given Radius of Rotation of Mid Position, measured in Force can be negative.

Which unit is used to measure Controlling Force for Porter Governor given Radius of Rotation of Mid Position?

Controlling Force for Porter Governor given Radius of Rotation of Mid Position is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Controlling Force for Porter Governor given Radius of Rotation of Mid Position can be measured.

Let Others Know

✖

Facebook

Twitter

Copied!

: Value
: Unit

Controlling Force for Porter Governor given Radius of Rotation of Mid Position Formula

​GoControlling Force for Porter Governor Formula

Controlling Force for Porter Governor given Radius of Rotation of Mid Position Example

Controlling Force for Porter Governor given Radius of Rotation of Mid Position Solution

Controlling Force for Porter Governor given Radius of Rotation of Mid Position Formula Elements

Other Formulas to find Force

Other formulas in Dimensions and Power category

How to Evaluate Controlling Force for Porter Governor given Radius of Rotation of Mid Position?

FAQs on Controlling Force for Porter Governor given Radius of Rotation of Mid Position

Variable Name

GoControlling Force for Porter Governor Formula