What is the Momentum Change in Pairs Figure Skating?

In summary: The total momentum before they meet is zero, and it stays that way afterward. But in this case it is easier to see that the change in momentum is zero.
  • #1
uni2820
2
0

Homework Statement


Question: In pairs figure skating, the heavy muscular male and the petite female skater skate towards each other and come to a stop when the female is lifted. Who undergoes a bigger momentum change?

a. the heavier skater
b. the lighter skater
c. same momentum change
d. we must know the exact masses and velocities to answer this question

Second part of the question: Continuing from the previous question, the heavy male skater proceeds to toss the lighter female skater, what happens to the male skater?

a. he moves back just as fast as the lighter skater
b. he does not move at all
c. he starts spinning
d. he moves back but at a lower speed than the lighter skater

Homework Equations


moment = mass x velocity

The Attempt at a Solution


First part of the question:
This is a question my friend posted on Snapchat and it got me wondering. His answer is (c (same momentum change)), but I think the answer should me (d). Here is my explanation: since "momentum = mass x velocity", if the petite female skater is going at a higher speed than the heavy muscular male, it is possible that they might have the same momentum change, which is why we must know the exact masses and velocities to answer this question. Is my explanation correct? Which is the correct answer?

Second part of the question:
My answer for this one would be (d). Here is my explanation: Since momentum is conserved, and momentum is defined as "mass x velocity", and the female skater is lighter, the heavier skater needs to be at a lower speed in order to be equal to the momentum of the female skater. Is my answer and explanation correct for this question?
 
Physics news on Phys.org
  • #2
uni2820 said:
but I think the answer should me (d). Here is my explanation: since "momentum = mass x velocity", if the petite female skater is going at a higher speed than the heavy muscular male, it is possible that they might have the same momentum change, which is why we must know the exact masses and velocities to answer this question. Is my explanation correct? Which is the correct answer?
No, your explanation is not correct. You applied momentum conservation to the second part of the question, but it also applies here.

uni2820 said:
Second part of the question:
My answer for this one would be (d). Here is my explanation: Since momentum is conserved, and momentum is defined as "mass x velocity", and the female skater is lighter, the heavier skater needs to be at a lower speed in order to be equal to the momentum of the female skater. Is my answer and explanation correct for this question?
Good.
 
  • #3
Doc Al said:
No, your explanation is not correct. You applied momentum conservation to the second part of the question, but it also applies here.

Do you mind correcting my explanation? What would the answer be in that case then?
 
  • #4
uni2820 said:
Do you mind correcting my explanation?

You had written:
uni2820 said:
Here is my explanation: since "momentum = mass x velocity", if the petite female skater is going at a higher speed than the heavy muscular male, it is possible that they might have the same momentum change,
Your reasoning is backwards. Since momentum is conserved, any change in one skater's momentum must be equal and opposite to the change in the other's.

Given that they end up at rest, then you can conclude that the lighter female skater must have been going faster. But that's not the issue here. The answer to this part of the question would be the same regardless of their speeds.

uni2820 said:
What would the answer be in that case then?
Your friend's answer was correct.
 
  • #5
The clue is the statement that they "come to a stop". That means after they meet the total momentum is zero. So by conservation of momentum the total momentum before they meet must also be zero. That's possible because they are going in opposite directions. eg..

mmvm + mgvg = 0
or
mmvm = - mgvg
 
  • #6
uni2820 said:
Second part of the question:
My answer for this one would be (d). Here is my explanation: Since momentum is conserved, and momentum is defined as "mass x velocity", and the female skater is lighter, the heavier skater needs to be at a lower speed in order to be equal to the momentum of the female skater. Is my answer and explanation correct for this question?

Correct.
 
  • #7
CWatters said:
The clue is the statement that they "come to a stop".
Even if they didn't "come to a stop", the answer to the first part would be the same.
 

Related to What is the Momentum Change in Pairs Figure Skating?

1. What is a simple moment question?

A simple moment question is a question that prompts an individual to reflect on a specific moment in their life and share their thoughts, feelings, and observations about it. It is a way to gain insight into someone's personal experiences and perspectives.

2. How do you come up with a simple moment question?

There are many ways to come up with a simple moment question. One approach is to think about a topic or theme that you want to explore and then brainstorm questions related to that topic. You can also draw inspiration from your own experiences or ask others for input.

3. What are the benefits of using simple moment questions in research?

Simple moment questions can provide rich and detailed information about an individual's thoughts, feelings, and experiences. They can also help to elicit personal and meaningful responses that may not be captured through traditional survey questions.

4. How do you analyze responses to simple moment questions?

Analyzing responses to simple moment questions requires a qualitative approach, as the responses are often subjective and open-ended. Researchers can use methods such as thematic analysis or content analysis to identify common themes and patterns in the responses.

5. Can simple moment questions be used in any type of research?

Yes, simple moment questions can be used in a variety of research fields and methodologies. They are particularly useful in qualitative research, but can also be incorporated into mixed methods studies. However, it is important to consider the purpose and feasibility of using simple moment questions in a particular study before incorporating them.

Similar threads

How Does Throwing a Partner Affect a Skater's Velocity in a Pairs Competition?
    • Introductory Physics Homework Help
Replies
3
Views
2K
What is the magnitude of the girl's change in momentum?
    • Introductory Physics Homework Help
Replies
19
Views
6K
What are the key mistakes in approaching this work-energy principle problem?
    • Introductory Physics Homework Help
Replies
5
Views
1K
How Do Skaters' Velocities Change After Grabbing a Pole?
    • Introductory Physics Homework Help
Replies
1
Views
5K
Conservation of momentum theory question
    • Introductory Physics Homework Help
Replies
6
Views
2K
What's the source of increase in rotational energy of carousel?
    • Introductory Physics Homework Help
Replies
9
Views
1K
Finding angular speed & KE using moment of inertia?
    • Introductory Physics Homework Help
Replies
2
Views
3K
Work done during a collision -- Change in Kinetic Energy & change in Momentum
    • Introductory Physics Homework Help
Replies
1
Views
688
Linear Momentum, Impulse, Center of a Mass, Velocity, Kinetic Energy
    • Introductory Physics Homework Help
Replies
1
Views
4K
Finding Momentum when giving the mass and height
    • Introductory Physics Homework Help
Replies
2
Views
2K

Hot Threads

Recent Insights

Back
Top