Angular Velocity and Particle Motion

Downwards

Horizontally

Upwards

Diagonally

Understanding angular velocity

Understanding linear velocity

Understanding the relationship between linear and angular velocity

Understanding circular motion

Because the particle is moving slowly

Because the particle is moving upwards

Because the particle is moving in a circle

Because the particle is close to the starting point

Integration

Substitution

Differentiation

Approximation

Cosine

Cotangent

Tangent

Sine

x = 1/2t

x = t

x = t^2

x = 2t

sin^2(theta) * d(theta)/dt

cos^2(theta) * d(theta)/dt

sec^2(theta) * d(theta)/dt

tan^2(theta) * d(theta)/dt

x = 2t

tan(theta) = 2t

cos(theta) = 2t

sec(theta) = 2t

1/(1 + 4t^2)

2t/(1 + 4t^2)

4t/(1 + 4t^2)

2/(1 + 4t^2)

To simplify the trigonometric expression

To find the expression for x

To relate linear and angular velocity

To differentiate with respect to the wrong variable