How much mechanical energy is lost in a car-truck collision?

AI Thread Summary
In a collision between a 991kg car and an 8650kg truck, the initial kinetic energy was calculated to be 1,887,283.195 J, while the final kinetic energy was 1,835,531.357 J. The difference, representing the mechanical energy lost, was found to be approximately 51,751.838 J. There was a discussion about whether to report this value as negative or just the magnitude, with consensus leaning towards the latter. The conversation also acknowledged the assumption of a frictionless road and noted that minor discrepancies could arise from significant figures or potential errors in provided answers.
AdnamaLeigh
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A 991kg car traveling initially with a speed of 32.2m/s in an easterly direction crashes into the rear end of an 8650kg truck moving in the same direction at 17.8m/s. The velocity of the car right after the collision is 10.4m/s to the east. How much mechanical energy is lost in the collision? Answer in J.

I already solved for the velocity of the truck after the collision: 20.298m/s.

I did Mech Energy = Initial kinetic energy - final kinetic energy

Initial
Ke= .5(991)(32.3)^2 + .5(8650)(17.8)^2 = 1887283.195J

Final
Ke= .5(991)(10.4)^2 + .5(8650)(20.298)^2 = 1835531.357J

The difference between the two is 51751.838J and it's incorrect. I've checked my math too many times and I still get the same answer. Or is the answer supposed to be -51751.838J? I figured that since they said "energy is lost," they only wanted the magnitude of energy lost. I'm stumped.
 

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AdnamaLeigh said:
A 991kg car traveling initially with a speed of 32.2m/s in an easterly direction crashes into the rear end of an 8650kg truck moving in the same direction at 17.8m/s. The velocity of the car right after the collision is 10.4m/s to the east. How much mechanical energy is lost in the collision? Answer in J.
I already solved for the velocity of the truck after the collision: 20.298m/s.
I did Mech Energy = Initial kinetic energy - final kinetic energy
Initial
Ke= .5(991)(32.3)^2 + .5(8650)(17.8)^2 = 1887283.195J
Final
Ke= .5(991)(10.4)^2 + .5(8650)(20.298)^2 = 1835531.357J
The difference between the two is 51751.838J and it's incorrect. I've checked my math too many times and I still get the same answer. Or is the answer supposed to be -51751.838J? I figured that since they said "energy is lost," they only wanted the magnitude of energy lost. I'm stumped.
There is an underlying assumption that the road is frictionless so that momentum is conserved.

It may be just a significant figure problem. KEi = 1887 KJ. KEf = 1836 KJ. The difference is 51 KJ.

AM
 
The online homework service allows for a +/- 1% error. We don't have to worry about sig figs. I agree that the underlying assumption is that the road is frictionless. I was able to use the conservation of momentum in order to figure out the velocity of the truck and i understand that kinetic energy is lost due to sound, heat, deformation, etc.

I still don't know...
 
AdnamaLeigh said:
The online homework service allows for a +/- 1% error. We don't have to worry about sig figs. I agree that the underlying assumption is that the road is frictionless. I was able to use the conservation of momentum in order to figure out the velocity of the truck and i understand that kinetic energy is lost due to sound, heat, deformation, etc.
I still don't know...
I get: Initial KE = 1887283 J. Final KE = 1835452 J.
The difference is 51813 J. So your answer is correct. Don't worry. Sometimes the given answers are wrong.

AM
 
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