
 Relationship between linear and angular quantities formula
 Where 1 = length of the arc
 theta = angle subtended by arc in radians (rad)
 v = Speed of object in its circular path
 w = angular velocity, in rad/s

 Frequency and Period Formula
 Where f = frequency
 T= period in cycles per second

 An object moving in a circular path Formula
 Where Fc = centripetal force
 m= mass of object
 v = speed in its circular path
 r = radius of the path
 T = period of circular motion
 w = angular velocity

 Simple harmonic motion Formula
 Where A= amplitude
 w= angular velocity
 t= time
 x = position
 v = velocity
 a = acceleration

 Mass on a spring Formula
 Where T= period of oscillation
 m= mass attached to spring
 k= spring constant

 Pendulum swinging through a small arc Formula
 Where T= period of oscillation
 l= length of pendulum
 g= acceleration due to gravity

