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Total Energy Absorbed by the Brake Solution

STEP 0: Pre-Calculation Summary
Formula Used
energy_absorbed_by_brake = Braking or fixing torque on the fixed member*Angle of Rotation
E = T3*θ
This formula uses 2 Variables
Variables Used
Braking or fixing torque on the fixed member - Braking or fixing torque on the fixed member is the measure of the force that can cause an object to rotate about an axis. (Measured in Newton Centimeter)
Angle of Rotation - Angle of Rotation is defined as by how many degrees the object is moved with respect to reference line. (Measured in Radian)
STEP 1: Convert Input(s) to Base Unit
Braking or fixing torque on the fixed member: 33 Newton Centimeter --> 0.33 Newton Meter (Check conversion here)
Angle of Rotation: 20 Radian --> 20 Radian No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
E = T3*θ --> 0.33*20
Evaluating ... ...
E = 6.6
STEP 3: Convert Result to Output's Unit
6.6 Joule --> No Conversion Required
FINAL ANSWER
6.6 Joule <-- Energy Absorbed by the Brake
(Calculation completed in 00.016 seconds)

10+ Design of Brakes Calculators

Radius of Gyration When Kinetic Energy of the Rotating Body is Given
radius_of_gyration = sqrt(2*Kinetic Energy Absorbed/(Mass*(Final Angular Velocity^2-Initial angular velocity^2))) Go
Mass of the System When Kinetic Energy of Rotating Body is Given
mass = 2*Kinetic Energy Absorbed/((Initial angular velocity^2-Final Angular Velocity^2)*Radius of gyration^2) Go
Final Angular Velocity of the Body When Kinetic Energy of Rotating Body is Given
final_angular_velocity = sqrt(Initial angular velocity^2-(2*Kinetic Energy Absorbed/Moment of Inertia)) Go
Initial Angular Velocity of the Body When Kinetic Energy of the Rotating Body is Given
initial_angular_velocity = sqrt((2*Kinetic Energy Absorbed/Mass)+Final Angular Velocity^2) Go
Initial Velocity of the System When Kinetic Energy Absorbed by the Brakes is Given
initial_velocity = sqrt((2*Kinetic Energy Absorbed/Mass)+Final Velocity^2) Go
Final Velocity When Kinetic Energy Absorbed by the Brakes is Given
final_velocity = sqrt(Initial Velocity^2-(2*Kinetic Energy Absorbed/Mass)) Go
Moment of Inertia of the System When Kinetic Energy of the Rotating Body is Given
moment_of_inertia = 2*Kinetic Energy Absorbed/(Initial angular velocity^2-Final Angular Velocity^2) Go
Kinetic energy of a Rotating Body
kinetic_energy_absorbed = Moment of Inertia*(Initial angular velocity^2-Final Angular Velocity^2)/2 Go
Mass of the System When Kinetic Energy Absorbed by the Brakes is Given
mass = 2*Kinetic Energy Absorbed/(Initial Velocity^2-Final Velocity^2) Go
Kinetic Energy Absorbed by the Brake
kinetic_energy_absorbed = Mass*(Initial Velocity^2-Final Velocity^2)/2 Go

Total Energy Absorbed by the Brake Formula

energy_absorbed_by_brake = Braking or fixing torque on the fixed member*Angle of Rotation
E = T3*θ

Define Total Energy?

The total energy of a system is the sum of kinetic and gravitational potential energy, and this total energy is conserved in orbital motion. Objects must have a minimum velocity, the escape velocity, to leave a planet and not return.

How to Calculate Total Energy Absorbed by the Brake?

Total Energy Absorbed by the Brake calculator uses energy_absorbed_by_brake = Braking or fixing torque on the fixed member*Angle of Rotation to calculate the Energy Absorbed by the Brake, Total Energy Absorbed by the Brake formula is defined as the energy absorbed by the system or the brakes when a sudden brakes are applied through the system. Energy Absorbed by the Brake and is denoted by E symbol.

How to calculate Total Energy Absorbed by the Brake using this online calculator? To use this online calculator for Total Energy Absorbed by the Brake, enter Braking or fixing torque on the fixed member (T3) and Angle of Rotation (θ) and hit the calculate button. Here is how the Total Energy Absorbed by the Brake calculation can be explained with given input values -> 6.6 = 0.33*20.

FAQ

What is Total Energy Absorbed by the Brake?
Total Energy Absorbed by the Brake formula is defined as the energy absorbed by the system or the brakes when a sudden brakes are applied through the system and is represented as E = T3*θ or energy_absorbed_by_brake = Braking or fixing torque on the fixed member*Angle of Rotation. Braking or fixing torque on the fixed member is the measure of the force that can cause an object to rotate about an axis and Angle of Rotation is defined as by how many degrees the object is moved with respect to reference line.
How to calculate Total Energy Absorbed by the Brake?
Total Energy Absorbed by the Brake formula is defined as the energy absorbed by the system or the brakes when a sudden brakes are applied through the system is calculated using energy_absorbed_by_brake = Braking or fixing torque on the fixed member*Angle of Rotation. To calculate Total Energy Absorbed by the Brake, you need Braking or fixing torque on the fixed member (T3) and Angle of Rotation (θ). With our tool, you need to enter the respective value for Braking or fixing torque on the fixed member and Angle of Rotation 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 Energy Absorbed by the Brake?
In this formula, Energy Absorbed by the Brake uses Braking or fixing torque on the fixed member and Angle of Rotation. We can use 10 other way(s) to calculate the same, which is/are as follows -
  • kinetic_energy_absorbed = Mass*(Initial Velocity^2-Final Velocity^2)/2
  • mass = 2*Kinetic Energy Absorbed/(Initial Velocity^2-Final Velocity^2)
  • initial_velocity = sqrt((2*Kinetic Energy Absorbed/Mass)+Final Velocity^2)
  • final_velocity = sqrt(Initial Velocity^2-(2*Kinetic Energy Absorbed/Mass))
  • kinetic_energy_absorbed = Moment of Inertia*(Initial angular velocity^2-Final Angular Velocity^2)/2
  • moment_of_inertia = 2*Kinetic Energy Absorbed/(Initial angular velocity^2-Final Angular Velocity^2)
  • initial_angular_velocity = sqrt((2*Kinetic Energy Absorbed/Mass)+Final Angular Velocity^2)
  • final_angular_velocity = sqrt(Initial angular velocity^2-(2*Kinetic Energy Absorbed/Moment of Inertia))
  • radius_of_gyration = sqrt(2*Kinetic Energy Absorbed/(Mass*(Final Angular Velocity^2-Initial angular velocity^2)))
  • mass = 2*Kinetic Energy Absorbed/((Initial angular velocity^2-Final Angular Velocity^2)*Radius of gyration^2)
Where is the Total Energy Absorbed by the Brake calculator used?
Among many, Total Energy Absorbed by the Brake calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
{FormulaExamplesList}
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