1. a 150-g ball is thrown at a stationary 3500-g wood block. after the collision, the velocity of both objects is .85 m/s. what was the initial speed of the ball of dough? a) 2.4 m/s b) 2.7 m/s c) 21 m/s d) 23 m/s 2. why is impulse the same whether an object is stopped by a haystack or a concrete wall? 3. a 240-kg quarterback catches a football while he is stationary. an 80-kg opponent runs toward him at 2 m/s and tackles him. after the collision, the quarterback travels backward at 1 m/s. what is the final velocity of the opponent?

For 1: The correct option is Option C.

For 3: The final velocity of the opponent is 1m/s

Explanation:

During collision, the energy and momentum remains conserved. The equation for the conservation of momentum follows:

     ...(1)

where,

are the mass, initial velocity and final velocity of first object

are the mass, initial velocity and final velocity of second object

For 1:

We are Given:

Putting values in equation 1, we get:

Hence, the correct answer is Option C.

Impulse is defined as the product of force applied on an object and time taken by the object.

Mathematically,

where,

F = force applied on the object

t = time taken

J = impulse on that object

Impulse depends only on the force and time taken by the object and not dependent on the surface which is stopping the object.

Hence, the impulse remains the same.

Let the speed in right direction be positive and left direction be negative.

We are Given:

Putting values in equation 1, we get:

Hence, the final velocity of the opponent is 1m/s and has moved backwards to its direction of the initial velocity.

By Newton's third law, the force of the cart on the horse has increased by the same amount. But the horse is also accelerating, so the friction of the ground on its hooves must be larger than the force the cart exerts on the horse.

Explanation: