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11. Momentum & Impulse

Completely Inelastic Collisions

Physics

11. Momentum & Impulse

Completely Inelastic Collisions

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7:59 minutes

Problem 26a

Textbook Question

A 70.00 kg football player is gliding across very smooth ice at 2.00 m/s. He throws a 0.450 kg football straight forward. What is the player's speed afterward if the ball is thrown at 15.0 m/s relative to the ground?

Verified step by step guidance

Step 1: Identify the principle of conservation of momentum. Since there are no external forces acting on the system (player + football), the total momentum before and after the throw must remain constant.

Step 2: Write the equation for the total momentum before the throw. The initial momentum of the system is the sum of the player's momentum and the football's momentum. Since the football is initially moving with the player, its initial velocity is the same as the player's velocity. The total initial momentum is given by:

p

_initial = (m_player)(v_player) + (m_football)(v_football), where

v

_football = v_player.

Step 3: Write the equation for the total momentum after the throw. After the throw, the player and the football have different velocities. The total final momentum is given by:

p

_final = (m_player)(v_{player, final}) + (m_football)(v_{football, final}), where

v

_{football, final} is the velocity of the football relative to the ground.

Step 4: Set the total initial momentum equal to the total final momentum, as momentum is conserved. This gives:

(m

_player)(v_player) + (m_football)(v_football) = (m_player)(v_{player, final}) + (m_football)(v_{football, final}). Substitute the known values for the masses and velocities into this equation.

Step 5: Solve for the player's final velocity,

v

_{player, final}. Rearrange the equation to isolate

v

_{player, final} on one side. This will involve subtracting the momentum contribution of the football from both sides and dividing by the player's mass. The resulting expression will give the player's final velocity.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Conservation of Momentum

The conservation of momentum states that in a closed system, the total momentum before an event must equal the total momentum after the event, provided no external forces act on it. In this scenario, the football player and the football form a closed system where the initial momentum is the sum of their individual momenta before the throw, and the final momentum is the sum after the throw.

Relative Velocity

Relative velocity refers to the velocity of one object as observed from another object. In this question, the speed of the football is given relative to the ground, which means we need to account for both the player's initial speed and the speed of the ball to find the player's new speed after the throw.

Vector Addition

Vector addition is the process of combining two or more vectors to determine a resultant vector. In this case, the player's speed and the speed of the football must be treated as vectors, taking into account their directions to accurately calculate the player's final speed after the football is thrown.

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Two skaters collide and grab on to each other on frictionless ice. One of them, of mass 70.0 kg, is moving to the right at 4.00 m/s, while the other, of mass 65.0 kg, is moving to the left at 2.50 m/s. What are the magnitude and direction of the velocity of these skaters just after they collide?

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Textbook Question

You are standing on a sheet of ice that covers the football stadium parking lot in Buffalo; there is negligible friction between your feet and the ice. A friend throws you a 0.600-kg ball that is traveling horizontally at 10.0 m/s. Your mass is 70.0 kg. If you catch the ball, with what speed do you and the ball move afterward?

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Textbook Question

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At the center of a 50-m-diameter circular ice rink, a 75 kg skater traveling north at 2.5 m/s collides with and holds on to a 60 kg skater who had been heading west at 3.5 m/s. Where will they reach it? Give your answer as an angle north of west.

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Textbook Question

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Textbook Question

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Textbook Question

A 2100 kg truck is traveling east through an intersection at 2.0 m/s when it is hit simultaneously from the side and the rear. (Some people have all the luck!) One car is a 1200 kg compact traveling north at 5.0 m/s. The other is a 1500 kg midsize traveling east at 10 m/s. The three vehicles become entangled and slide as one body. What are their speed and direction just after the collision?

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