A tennis ball attached to a string

A spinning top

A car driving in a circle

A planet orbiting the sun

It explains the net force as the cause of acceleration

It describes the net force as zero

It only applies to objects moving in a straight line

It states that objects in circular motion have no acceleration

Center seeking

Center fleeing

Tangential force

Circular motion

It changes the speed of the object

It directs the object towards the center of the circle

It keeps the object moving in a straight line

It has no effect on the object's direction

It flies off in the tangential direction

It continues in a circular path

It falls straight down

It stops immediately

Because its speed is increasing

Due to the centripetal force

Because it is slowing down

Due to gravitational force

Centripetal force changes the direction of tangential velocity

Tangential velocity is always greater than centripetal force

Tangential velocity is the cause of centripetal force

They are unrelated