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A visually stimulating image portraying a few various physical concepts. Design the composition to reveal a scenario of a experiment in a closed system with balls of different sizes, mimicking the laws of motion and impulse. Use depictions of force vectors and visual representations of time to signify the diverse facets of impulse. Simultaneously, allow the artwork to inexplicably demonstrate the momentum shift during different collisions within the system. Lastly, let the image subtly involve different weighted objects highlighting the effects of their interaction when they move together.

1. Which mathematical representation correctly identifies impulse?

A. implulse= force/time
B. impulse= force * time
C. impulse= acceleration * time
D. impulse= velocity/time

2. In a closed system, a ball with a mass of 3 kg and a momentum of 24 kg·m/s collides into a ball with a mass of 1 kg that is originally at rest. Which statement describes the momentum of the balls and the total momentum?
A. The momentum of each ball changes, and the total momentum stays the same.
B. The momentum of each ball changes, and the total momentum changes.
C. The momentum of each ball stays the same, and the total momentum stays the same.
D. The momentum of each ball stays the same, and the total momentum changes.

3. In a closed system, three objects have the following momentums: 110 kg⋅m/s, −65 kg⋅m/s, and −100 kg⋅m/s. The objects collide and move together. What is the total momentum after the collision?
A. -55 kg*m/s
B. -275 kg*m/s
C. 275 kg*m/s
D. 55 kg*m/s

4. In a closed system, an object with a mass of 1.5 kg collides with a second object. The two objects then move together at a velocity of 50 m/s. The total momentum of the system is 250 kg⋅m/s. What is the mass of the second object?
A. 3.0 kg
B. 3.5 kg
C. 5.0 kg
D. 1.5 kg

5. A cue stick has a mass of 0.5 kg. The cue stick hits a ball with a mass of 0.2 kg at a velocity of 2.5 m/s. What is the velocity of the ball after it is hit?
A. 2.5 m/s
B. 8.3 m/s
C. 6.3 m/s
D. 3.6 m/s

1. B. Impulse = Force × Time

2. A. The momentum of each ball changes, and the total momentum stays the same

3. -55 kg·m/s

4. B. 3.5 kg

5. C. 6.3 m/s

i got 100%

1. B Impulse = force x time

2. A The momentum of each ball changes, and the total momentum stays the same
3. -55 kg m/s
4. B 3.5 kg
5. C 6.3 m/s

-just took it and made a 100 :)

both banshee and gaia are right 100% and thank you for them

The Moment of Impact Quick Check

1. B. Impulse = Force × Time
2. A. The momentum of each ball changes, and the total momentum stays the same
3. D. -55 kg·m/s
4. B. 3.5 kg
5. C. 6.3 m/s

I got a 100. You're Welcome. 💙

1. Impulse = Force × Time

2. The momentum of each ball changes, and the total momentum stays the same

3. -55 kg·m/s

4. 3.5 kg

5. 6.3 m/s

I got a 100% from Gaia!

Gias correct! i made a 100!!