A 1 215 kg car traveling initially with a speed of 25.0 m/s in an easterly direc
ID: 2008267 • Letter: A
Question
A 1 215 kg car traveling initially with a speed of 25.0 m/s in an easterly direction crashes into the back of a 9 200 kg truck moving in the same direction at 20.0 m/s. The velocity of the car right after the collision is 18.0 m/s to the east.(a) What is the velocity of the truck right after the collision?
20.92 m/s east
(b) What is the change in mechanical energy of the car–truck system in the collision? (Use input values with an adequate number of significant figures to calculate this answer.)
? J
Explanation / Answer
The mass of the car m = 1215kg the mass of the truck M = 9200 kg the speed of the car v1i = 25m/s the speed of the truck v2i = 20 m/s after collision the speed of the car v1f = 18m/s then from law of conservation of momentum m1v1i + m2v2i = m1v1f + m2v2f then the speed of the truck after collsion v2f = (m v1i + M v2i - mv1f) / M = [(1215)(25) + (9200) (20)] - (1215)(18) / 9200 = 20.92 m/s (b) The kinetic energy before collision E = 1/2mv1i^2 + 1/2M v2i^2 = (0.5) (1215)(25)^2 + (0.5)(9200)(20)^2 = 379687.5 + 1840000 = 2219687.5 the kinetic energy after collision E = 1/2mv1i^2 + 1/2M v2i^2 = (0.5) (1215)(18)^2 + (0.5)(9200)(20.92)^2 = 196830 + 2013173.44 = 2210003.5 therefore the difference E = 9684 J the kinetic energy after collision E = 1/2mv1i^2 + 1/2M v2i^2 = (0.5) (1215)(18)^2 + (0.5)(9200)(20.92)^2 = 196830 + 2013173.44 = 2210003.5 therefore the difference E = 9684 J therefore the difference E = 9684 JRelated Questions
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