Car Collision Dynamics Analysis

AI Thread Summary
The discussion centers on calculating the post-collision dynamics of two cars involved in a collision, with Car A moving at 30 km/h and Car B stationary. Key calculations include finding the common velocity after impact, average acceleration during impact, the force exerted on each car, and the percentage energy loss. The initial calculations provided are incorrect due to a misunderstanding of the principles of momentum conservation and the need for a time interval to determine average acceleration. The masses of the cars are given as 1800 kg for Car A and 900 kg for Car B, but further clarification on the calculations is needed. The conversation emphasizes the importance of using the correct physics principles for accurate results.
kian651
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Homework Statement



Car A moving at 30 km/h strikes car B (stationary). The two become entangled and move together.

Find:

Common velocity after impact. V2

Average acceleration of both cars during impact.

Magnitude of the force exerted on each car during impact.

Percentage energy loss.


I need numbers please.

I found
V2: 5/55
acc A= -27.8 ACC B= 55.53

Force F=ma for each.

Energy loss= 1/2 mv^2 initial -( 1/2 mv^2 A final+ 1/2 mv^2 B final)



Is that right?
 
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kian651 said:
Is that right?

I can't tell without the masses of the two cars.
 
lol sorry man,
A- 1800 KG
B - 900 KG
 
Your answer is not correct. To begin with, F = ma is not the issue here. The cars are not accelerating. They are moving at constant velocity until they collide. You need to conserve linear momentum. Please try again and show exactly what you did so that I can point out where you went wrong if that happens to be the case.
 
Average acceleration needs a time interval... not given. Not really solvable. :P
 

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