Car & Scooter: Momentum & Force - Who Needs More?

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SUMMARY

The discussion centers on the comparison of stopping forces required for a car and a scooter, given their respective masses and speeds. A car with a mass of 600 kg traveling at 10 m/s has a momentum of 6000 kg·m/s, while a scooter with a mass of 80 kg traveling at 50 m/s has a momentum of 4000 kg·m/s. To stop both vehicles in the same time, the car requires more force due to its greater momentum. Conversely, to stop both in the same distance, the scooter requires more force because it has a higher initial velocity, resulting in a greater kinetic energy that must be dissipated.

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Saanchi
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a car of mass 600 kg travels with a speed of 10m/s and a scooter of mass 80kg with 50m/s

Which will require more force to stop
(1) in same time
2) in same distance
Give reasons

Ans :
((2) car because being lighter it will acquire more momentum as momentum depends on product of force and time duration. Thus lighter body will acquire more momentum
Am I right ? Or have I got it wrong?
And answer to part 1 please

Thanks
 
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Nope. revise back the defination of momentum. Sometimes we can use mathematics approach to answer the question. Especially for this type of question where the given the quantities are not the same and can't be compared directly.
 
Btw, the momentum approach is for part 1, it will be easier to solve the 2nd question with another way
 
yes I know that momentum is product of mass and velocity
But change in momentum is dependent on force and time duration..
So could u please tell me the answers with reasons..
 
For the first question, why don't u calculate the momentum for each vehicles? What is the relationship between momentum, force and time?
 
Saanchi said:
change in momentum is dependent on force and time duration.
after calculating the momentum for each vehicles,by relating it to force and time, you will have 2 equations. Since they will stop at the same time, which one is easier to stop? The vehicle with larger momentum or the lower one? You can link those equations together since both equations have the same constant.
 
For the second part, since they will stop at the same distance, how can we relate distance, force, mass and velocity together? Think along this line and u will get the answer surely. The answer in part b will not be the same as in part a:wink:
 
honlin said:
For the second part, since they will stop at the same distance, how can we relate distance, force, mass and velocity together? Think along this line and u will get the answer surely. The answer in part b will not be the same as in part a:wink:
Part 1) car
2) scooter
Am I right
 
Saanchi said:
yes I know that momentum is product of mass and velocity
But change in momentum is dependent on force and time duration..
So could u please tell me the answers with reasons..

No, that is against the PF rules. You need to do the work yourself, or ask for hints, not solutions.
 

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