AH 1.3 Rotational Dynamics

Question 1

What is the moment of a force?

Answer 1

The moment of a force is the turning effect caused by an applied force acting at right angles to the radius of a rotation about an axis and is given by T = F x r, where T = torque (or moment of the force) in Nm F = applied force perpendicular to radius of rotation r = radius of rotation

Question 2

An unbalanced Torque causes what in a rotating body?

Answer 2

Angular acceleration.

Question 3

The angular acceleration caused by an unbalanced torque, depends on which property of the rotating body?

Answer 3

The moment of inertia.

Question 4

The moment of inertia of a rotating body, depends on which two properties of that body?

Answer 4

Mass and average radius of mass.

Question 5

What is the moment of inertia I of a point mass m describing uniform circular motion at a radius r from its axis of rotation?

Answer 5

I = mr²

Question 6

State what is meant by the angular momentum of a rotating body.

Answer 6

The Angular Momentum of a rotating body is given by the equation

L = Iω

where

L = angular momentum (kg m² s^-1)

I = the moment of inertia (kg m²⁾

ω = angular velocity (rad s^-1)

Question 7

State the Law of conservation of angular momentum in words.

Answer 7

In the absence of external torques, the angular momentum of a rotating body is conserved.

Question 8

State the Law of conservation of angular momentum as an equation

Answer 8

In the absence of external torques

I₁ω₁ = I₂ω₂

Where

I₁ = total moment of inertia BEFORE the interaction

ω₁= angular velcoity of system BEFORE the interaction

I₂ = total moment of inertia AFTER the interaction

ω₂= angular velcoity of system AFTER the interaction

Question 9

What does the rotational kinetic energy of a rotating body depend on?

Answer 9

1. Its moment of inertia, and
2. It’s angular veocity

Question 10

What is the equation for the rotational kinetic energy of a rotating body?

Answer 10

E_k(rot) = 1/2 Iω²