Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1 Calculator

✖Mass of Ball is the amount of "matter" in the object.ⓘ Mass of Ball [m_b]			+10% -10%
✖Mass of Central Load is both a property of a physical body and a measure of its resistance to acceleration (a change in its state of motion) when a net force is applied.ⓘ Mass of Central Load [M]			+10% -10%
✖Acceleration Due to Gravity is acceleration gained by an object because of gravitational force.ⓘ Acceleration Due to Gravity [g]			+10% -10%
✖The Angular Velocity refers to how fast an object rotates or revolves relative to another point, i.e. how fast the angular position or orientation of an object changes with time.ⓘ Angular Velocity [ω]			+10% -10%

✖Height of Governor is the measurement from the bottom to the top of the governor.ⓘ Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1 [h]

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Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1 Solution

STEP 0: Pre-Calculation Summary

Formula Used

Height of Governor = (Mass of Ball+Mass of Central Load)*Acceleration Due to Gravity/(Mass of Ball*Angular Velocity^2)
h = (m_b+M)*g/(m_b*ω^2)
This formula uses 5 Variables

Variables Used

Height of Governor - (Measured in Meter) - Height of Governor is the measurement from the bottom to the top of the governor.
Mass of Ball - (Measured in Kilogram) - Mass of Ball is the amount of "matter" in the object.
Mass of Central Load - (Measured in Kilogram) - Mass of Central Load is both a property of a physical body and a measure of its resistance to acceleration (a change in its state of motion) when a net force is applied.
Acceleration Due to Gravity - (Measured in Meter per Square Second) - Acceleration Due to Gravity is acceleration gained by an object because of gravitational force.
Angular Velocity - (Measured in Radian per Second) - The Angular Velocity refers to how fast an object rotates or revolves relative to another point, i.e. how fast the angular position or orientation of an object changes with time.

STEP 1: Convert Input(s) to Base Unit

Mass of Ball: 6 Kilogram --> 6 Kilogram No Conversion Required
Mass of Central Load: 21 Kilogram --> 21 Kilogram No Conversion Required
Acceleration Due to Gravity: 9.8 Meter per Square Second --> 9.8 Meter per Square Second No Conversion Required
Angular Velocity: 11.2 Radian per Second --> 11.2 Radian per Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

h = (m_b+M)*g/(m_b*ω^2) --> (6+21)*9.8/(6*11.2^2)

Evaluating ... ...

h = 0.3515625

STEP 3: Convert Result to Output's Unit

0.3515625 Meter --> No Conversion Required

FINAL ANSWER

0.3515625 ≈ 0.351563 Meter <-- Height of Governor

(Calculation completed in 00.004 seconds)

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Home » Physics » Theory of Machine » Governors » Porter Governor » Mechanical » Dimensions and Power » Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1

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< Dimensions and Power Calculators

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

LaTeX Go Power = (Mass of Ball+Mass of Central Load/2*(1+Ratio of Length of Link to Length of Arm))*(4*Percentage Increase in Speed^2*Acceleration Due to Gravity*Height of Governor)/(1+2*Percentage Increase in Speed)

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

LaTeX Go Power = (4*Percentage Increase in Speed^2*(Mass of Ball+Mass of Central Load)*Acceleration Due to Gravity*Height of Governor)/(1+2*Percentage Increase in Speed)

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

LaTeX Go Force = Mass of Ball*((2*pi*Mean Equilibrium Speed in RPM)/60)^2*Radius of Rotation if Governor is in Mid Position

Controlling Force for Porter Governor

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

Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1 Formula

LaTeX Go

Height of Governor = (Mass of Ball+Mass of Central Load)*Acceleration Due to Gravity/(Mass of Ball*Angular Velocity^2)
h = (m_b+M)*g/(m_b*ω^2)

What is the use of Porter governor?

This Porter Governor is also a type of the Centrifugal Governor with an additional central load on the sleeve to increase the speed of the balls required to lift the sleeve on the spindle. Which will enable the governor to operate the mechanism to give necessary change in the fuel supply.

How to Calculate Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1?

Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1 calculator uses Height of Governor = (Mass of Ball+Mass of Central Load)*Acceleration Due to Gravity/(Mass of Ball*Angular Velocity^2) to calculate the Height of Governor, Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1 formula is defined as the vertical distance of the governor from the point of rotation, which plays a crucial role in regulating the engine's speed and maintaining a stable operation. Height of Governor is denoted by h symbol.

How to calculate Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1 using this online calculator? To use this online calculator for Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1, enter Mass of Ball (m_b), Mass of Central Load (M), Acceleration Due to Gravity (g) & Angular Velocity (ω) and hit the calculate button. Here is how the Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1 calculation can be explained with given input values -> 0.351563 = (6+21)*9.8/(6*11.2^2).

FAQ

What is Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1?

Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1 formula is defined as the vertical distance of the governor from the point of rotation, which plays a crucial role in regulating the engine's speed and maintaining a stable operation and is represented as h = (m_b+M)*g/(m_b*ω^2) or Height of Governor = (Mass of Ball+Mass of Central Load)*Acceleration Due to Gravity/(Mass of Ball*Angular Velocity^2). Mass of Ball is the amount of "matter" in the object, Mass of Central Load is both a property of a physical body and a measure of its resistance to acceleration (a change in its state of motion) when a net force is applied, Acceleration Due to Gravity is acceleration gained by an object because of gravitational force & The Angular Velocity refers to how fast an object rotates or revolves relative to another point, i.e. how fast the angular position or orientation of an object changes with time.

How to calculate Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1?

Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1 formula is defined as the vertical distance of the governor from the point of rotation, which plays a crucial role in regulating the engine's speed and maintaining a stable operation is calculated using Height of Governor = (Mass of Ball+Mass of Central Load)*Acceleration Due to Gravity/(Mass of Ball*Angular Velocity^2). To calculate Height of Governor for Porter Governor when Ratio of Length of Link to Length of Arm is 1, you need Mass of Ball (m_b), Mass of Central Load (M), Acceleration Due to Gravity (g) & Angular Velocity (ω). With our tool, you need to enter the respective value for Mass of Ball, Mass of Central Load, Acceleration Due to Gravity & Angular Velocity 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 Height of Governor?

In this formula, Height of Governor uses Mass of Ball, Mass of Central Load, Acceleration Due to Gravity & Angular Velocity. We can use 1 other way(s) to calculate the same, which is/are as follows -

Height of Governor = (Mass of Ball+Mass of Central Load/2*(Ratio of Length of Link to Length of Arm+1))*Acceleration Due to Gravity/(Mass of Ball*Angular Velocity^2)

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