Weight, velocity, acceleration

acceleration, force, speed

charge, momentum, impulse

colour charge, electric field, force

The bowling ball will land before the basketball.

The basketball and the bowling ball travel the same

horizontal distance as they fall.

The basketball and the bowling ball will reach the same velocity just before they land.

The basketball and the bowling ball will reach the same vertical velocity just before they

land.

0.003 N

330 Kg

330 N

0.003 Kg

Uniform circular motion is caused by a centrifugal force acting on the object

A free body diagram of an object in uniform circular motion shows a centripetal force acting inward and a centrifugal force acting outward.

A free body diagram of an object in uniform circular motion shows a centripetal force

acting outward and a centrifugal force acting inward.

The centripetal force is the net force acting on an object in uniform circular motion.

The gravitational constant, G is the same regardless of which planet you are on.

Acceleration due to gravity, g is the same regardless of which planet you are on.

Acceleration due to gravity, G is the same regardless of which planet you are on.

The gravitational constant, g is the same regardless of which planet you are on.

the gravitational force of the moon on the Earth would double, but the gravitational force of the Earth on the moon would remain the same.

the gravitational force of the Earth on the moon would double, but the gravitational force of the moon on the Earth would remain the same.

Both the gravitational force of the Earth on the moon and the gravitational force of the moon on the Earth would double.

Both the gravitational force of the Earth on the moon and the gravitational force of themoon on the Earth would remain the same

the gravitational force of the Sun on Mars would be unchanged.

the gravitational force of the Sun on Mars would reduce by a factor of 2.

the gravitational force of the Sun on Mars would reduce by a factor of 4.

the gravitational force of the Sun on Mars would be squared.