Centrifugal Force at Maximum Radius of Rotation Solution

STEP 0: Pre-Calculation Summary
Formula Used
Centrifugal force at maximum radius of rotation = Mass of Ball*Angular speed of governor at maximum radius^2*Maximum radius of rotation
Frc2 = mball*ω2^2*r2
This formula uses 4 Variables
Variables Used
Centrifugal force at maximum radius of rotation - (Measured in Newton) - Centrifugal force at maximum radius of rotation is the apparent outward force on a mass when it is rotated.
Mass of Ball - (Measured in Kilogram) - The mass of ball is the amount of "matter" in the object.
Angular speed of governor at maximum radius - (Measured in Radian per Second) - Angular speed of governor at maximum radius is the speed of the object in rotational motion.
Maximum radius of rotation - (Measured in Meter) - Maximum radius of rotation is the linear distance from its axis of rotation to a point of interest on the body.
STEP 1: Convert Input(s) to Base Unit
Mass of Ball: 6 Kilogram --> 6 Kilogram No Conversion Required
Angular speed of governor at maximum radius: 11 Radian per Second --> 11 Radian per Second No Conversion Required
Maximum radius of rotation: 15 Meter --> 15 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Frc2 = mball2^2*r2 --> 6*11^2*15
Evaluating ... ...
Frc2 = 10890
STEP 3: Convert Result to Output's Unit
10890 Newton --> No Conversion Required
FINAL ANSWER
10890 Newton <-- Centrifugal force at maximum radius of rotation
(Calculation completed in 00.004 seconds)

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National Institute Of Technology (NIT), Hamirpur
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9 Centrifugal Force Calculators

Centrifugal Force at Maximum Equilibrium Speed on Each Ball for Wilson-Hartnell Governor
Go Centrifugal force at maximum equilibrium speed = Tension in main spring at maximum speed+(Mass on Sleeve*Acceleration due to Gravity+(Tension in auxiliary spring at maximum speed*Distance of auxiliary spring from mid of lever)/Distance of main spring from mid point of lever)*Length of sleeve arm of lever/2*Length of ball arm of lever
Centrifugal Force at Minimum Equilibrium Speed on Each Ball for Wilson-Hartnell Governor
Go Centrifugal force at minimum equilibrium speed = Tension in main spring at minimum speed+(Mass on Sleeve*Acceleration due to Gravity+(Tension in auxiliary spring at minimum speed*Distance of auxiliary spring from mid of lever)/Distance of main spring from mid point of lever)*Length of sleeve arm of lever/2*Length of ball arm of lever
Centrifugal Force on Each Ball for Wilson-Hartnell Governor
Go Centrifugal Force = Tension in the main spring+(Mass on Sleeve*Acceleration due to Gravity+(Tension in the auxiliary spring*Distance of auxiliary spring from mid of lever)/Distance of main spring from mid point of lever)*Length of sleeve arm of lever/2*Length of ball arm of lever
Centrifugal Force at Intermediate Position for Hartnell Governor for Maximum Force
Go Centrifugal Force = Centrifugal force at minimum radius of rotation+(Centrifugal force at maximum radius of rotation-Centrifugal force at minimum radius of rotation)*(Radius of Rotation if Governor is in Mid-Position-Minimum radius of rotation)/(Maximum radius of rotation-Minimum radius of rotation)
Centrifugal Force at Intermediate Position for Hartnell Governor for Minimum Force
Go Centrifugal Force = Centrifugal force at maximum radius of rotation-(Centrifugal force at maximum radius of rotation-Centrifugal force at minimum radius of rotation)*(Maximum radius of rotation-Radius of Rotation if Governor is in Mid-Position)/(Maximum radius of rotation-Minimum radius of rotation)
Centrifugal Force for Pickering Governor
Go Centrifugal Force = Mass attached at the centre of the leaf spring*Angular speed of the governor spindle^2*(Distance from spindle axis to centre of gravity+Deflection of center of leaf spring)
Centrifugal Force for Hartung Governor
Go Centrifugal Force = Spring Force+(Mass on Sleeve*Acceleration due to Gravity*Length of sleeve arm of lever)/(2*Length of ball arm of lever)
Centrifugal Force at Maximum Radius of Rotation
Go Centrifugal force at maximum radius of rotation = Mass of Ball*Angular speed of governor at maximum radius^2*Maximum radius of rotation
Centrifugal Force at Minimum Radius of Rotation
Go Centrifugal force at minimum radius of rotation = Mass of Ball*Angular speed of governor at minimum radius^2*Minimum radius of rotation

Centrifugal Force at Maximum Radius of Rotation Formula

Centrifugal force at maximum radius of rotation = Mass of Ball*Angular speed of governor at maximum radius^2*Maximum radius of rotation
Frc2 = mball*ω2^2*r2

What causes centrifugal force?

Centrifugal Force is Caused by Inertia. When you swing an object around on a string or rope, the object will pull outward on the rope. The force you feel is called the centrifugal force and is caused by the inertia of the object, where it seeks to follow a straight-line path.

How to Calculate Centrifugal Force at Maximum Radius of Rotation?

Centrifugal Force at Maximum Radius of Rotation calculator uses Centrifugal force at maximum radius of rotation = Mass of Ball*Angular speed of governor at maximum radius^2*Maximum radius of rotation to calculate the Centrifugal force at maximum radius of rotation, The Centrifugal force at maximum radius of rotation formula is defined as the apparent outward force on a mass when it is rotated. Centrifugal force at maximum radius of rotation is denoted by Frc2 symbol.

How to calculate Centrifugal Force at Maximum Radius of Rotation using this online calculator? To use this online calculator for Centrifugal Force at Maximum Radius of Rotation, enter Mass of Ball (mball), Angular speed of governor at maximum radius 2) & Maximum radius of rotation (r2) and hit the calculate button. Here is how the Centrifugal Force at Maximum Radius of Rotation calculation can be explained with given input values -> 10890 = 6*11^2*15.

FAQ

What is Centrifugal Force at Maximum Radius of Rotation?
The Centrifugal force at maximum radius of rotation formula is defined as the apparent outward force on a mass when it is rotated and is represented as Frc2 = mball2^2*r2 or Centrifugal force at maximum radius of rotation = Mass of Ball*Angular speed of governor at maximum radius^2*Maximum radius of rotation. The mass of ball is the amount of "matter" in the object, Angular speed of governor at maximum radius is the speed of the object in rotational motion & Maximum radius of rotation is the linear distance from its axis of rotation to a point of interest on the body.
How to calculate Centrifugal Force at Maximum Radius of Rotation?
The Centrifugal force at maximum radius of rotation formula is defined as the apparent outward force on a mass when it is rotated is calculated using Centrifugal force at maximum radius of rotation = Mass of Ball*Angular speed of governor at maximum radius^2*Maximum radius of rotation. To calculate Centrifugal Force at Maximum Radius of Rotation, you need Mass of Ball (mball), Angular speed of governor at maximum radius 2) & Maximum radius of rotation (r2). With our tool, you need to enter the respective value for Mass of Ball, Angular speed of governor at maximum radius & Maximum radius of rotation 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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