After skiding down a snow-covered hill on an inner tube, Ashley is coasting across a level snowfield at a constant velocity of +2.0 m/s. Miranda runs after her at a velocity of +4.9 m/s and hops on the inner tube. How fast do the two of them slide across the snow together on the inner tube? Ashley's mass is 45 kg, and Miranda's is 74 kg. Ignore the mass of the inner tube and any friction between the inner tube and the snow. Number Type your answer here Units Choose your answer here

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After skiding down a snow-covered hill on an inner tube, Ashley is coasting across a level snowfield at a constant velocity of +2.0 m/s. Miranda runs after her at a velocity of +4.9 m/s and hops on the inner tube. How fast do the two of them slide across the snow together on the inner tube? Ashley's mass is 45 kg, and Miranda's is 74 kg. Ignore the mass of the inner tube and any friction between the inner tube and the snow.





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The image depicts a sequence of events related to the conservation of momentum.

1. **Diagram Description:**
    - **Scene 1:** A woman is running on an icy surface, moving from left to right with a velocity labeled as \( v_{02} \). She is depicted with a scarf, indicating movement.
    - **Scene 2:** Ahead of her, another person is on an inflated tube, moving with a velocity labeled as \( v_{01} \).
    - **Scene 3:** The final part shows both individuals on the same tube, moving together with a combined velocity labeled as \( v_f \).

2. **Visual Explanation:**
    - Initially, the woman and the person on the tube are moving separately. The woman is running, and the person on the tube is sliding.
    - Eventually, the woman jumps onto the tube, and they move together, demonstrating the principle of conservation of linear momentum.

This scenario effectively illustrates the concept of momentum before and after the interaction between a moving person and a stationary object. The total momentum is conserved, as indicated by the velocities before (\(v_{02}\) and \(v_{01}\)) and after (\(v_f\)) the event.
Transcribed Image Text:The image depicts a sequence of events related to the conservation of momentum. 1. **Diagram Description:** - **Scene 1:** A woman is running on an icy surface, moving from left to right with a velocity labeled as \( v_{02} \). She is depicted with a scarf, indicating movement. - **Scene 2:** Ahead of her, another person is on an inflated tube, moving with a velocity labeled as \( v_{01} \). - **Scene 3:** The final part shows both individuals on the same tube, moving together with a combined velocity labeled as \( v_f \). 2. **Visual Explanation:** - Initially, the woman and the person on the tube are moving separately. The woman is running, and the person on the tube is sliding. - Eventually, the woman jumps onto the tube, and they move together, demonstrating the principle of conservation of linear momentum. This scenario effectively illustrates the concept of momentum before and after the interaction between a moving person and a stationary object. The total momentum is conserved, as indicated by the velocities before (\(v_{02}\) and \(v_{01}\)) and after (\(v_f\)) the event.
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