A 1-kilogram mouse walks across a road at a velocity of 0.01 m/sec

The mouse's momentum can be calculated by multiplying its mass (1 kg) by its velocity (0.01 m/sec).

Momentum = Mass × Velocity

Momentum = 1 kg × 0.01 m/sec

Therefore, the mouse's momentum is 0.01 kg·m/s.

What is required for two forces to be balanced?(1 point)
Responses

They must be equal in strength and acting in opposite directions.

They must be equal in strength and acting in the same direction.

They must be unequal in strength and acting in the same direction.

They must be unequal in strength and acting in opposite directions.

They must be equal in strength and acting in opposite directions.

Kevin uses a golf club to hit a ball. What transfer of momentum takes place as a result of the ball being hit?(1 point)
Responses

Momentum is transferred from the golfer’s hand to the ball.

No momentum is transferred in this system.

Momentum is transferred from the ball to the golf club.

Momentum is transferred from the golf club to the ball.

Momentum is transferred from the golf club to the ball.

A 1-kilogram mouse walks across a road at a velocity of 0.01 m/sec
. What is the mouse’s momentum?(1 point)
Responses

1 kg⋅m/s

100 kg⋅m/s

10 kg⋅m/s

0.01 kg⋅m/s

The mouse's momentum can be calculated by multiplying its mass (1 kg) by its velocity (0.01 m/sec).

Momentum = Mass × Velocity

Momentum = 1 kg × 0.01 m/sec

Therefore, the mouse's momentum is 0.01 kg·m/s.