Impulse Needed to Stop a Moving Object Using Momentum and Newton's Laws

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To stop a 10kg bowling ball moving at 5m/s, the impulse needed is calculated as -50 kg·m/s, which is equivalent to -50 N·s. The initial confusion stemmed from the lack of units in the answer submitted, as impulse must include units for clarity. Both kg·m/s and N·s are acceptable units for impulse, as they are equivalent. Additionally, the discussion highlighted that friction plays a role in stopping the ball, complicating the evaluation of the required impulse. Understanding the relationship between impulse, momentum, and friction is crucial for solving such physics problems accurately.
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Homework Statement


What is the impulse needed to stop a 10kg bowling ball moving at 5m/s?


Homework Equations


Impulse = -initial momentum and
momentum = mass * v = 50


The Attempt at a Solution


I entered -50 as the answer but it was wrong :( can someone please help me?
 
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Did you try putting some units on that?
 
Dr.D said:
Did you try putting some units on that?

ummm... what kind of units?? because so far, i thought that unit of impulse is Kg.m/s?! am i wrong?
 
That will do, as will N-s, but what you put down above for your answer showed no units at all. Is that perhaps why your answer was rejected?
 
Dr.D said:
That will do, as will N-s, but what you put down above for your answer showed no units at all. Is that perhaps why your answer was rejected?

No, I don't have to answer units at all... but are you saying that the unit should be N*s at the end?? my ans was in units kg.m/s
 
If you work through it, you will discover that N-s are exactly the same thing as kg-m/s.

I suspect that the problem lies in the fact that the impulsive force applied to stop the ball is aided by the friction force that is maintianing the rolling constraint since both of the act against the forward motion. The friction force is hard to evaluate since it is a constraint, rather than a known value.
 

Thread 'Rolling without slipping on a curved surface'

Kindly see the attached pdf. My attempt to solve it, is in it. I'm wondering if my solution is right. My idea is this: At any point of time, the ball may be assumed to be at an incline which is at an angle of θ(kindly see both the pics in the pdf file). The value of θ will continuously change and so will the value of friction. I'm not able to figure out, why my solution is wrong, if it is wrong .
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TL;DR Summary: I came across this question from a Sri Lankan A-level textbook. Question - An ice cube with a length of 10 cm is immersed in water at 0 °C. An observer observes the ice cube from the water, and it seems to be 7.75 cm long. If the refractive index of water is 4/3, find the height of the ice cube immersed in the water. I could not understand how the apparent height of the ice cube in the water depends on the height of the ice cube immersed in the water. Does anyone have an...
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