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train car with mass m1 = 521 kg is moving to the right with a speed of v1 = 7.9 m/s and collides with a second train car. The t...Asked by MUHAMMAD JUNAID
A train car with mass m1 = 591 kg is moving to the right with a speed of v1 = 7.3 m/s and collides with a second train car. The two cars latch together during the collision and then move off to the right at vf = 4.7 m/s.
a. What is the initial momentum of the first train car?
b. What is the mass of the second train car?
c. What is the change in kinetic energy of the two train system during the collision?
d. Now the same two cars are involved in a second collision. The first car is again moving to the right with a speed of v1 = 7.3 m/s and collides with the second train car that is now moving to the left with a velocity v2 = -5.5 m/s before the collision. The two cars latch together at impact.
What is the final velocity of the two-car system? (A positive velocity means the two train cars move to the right – a negative velocity means the two train cars move to the left.)
e. Compare the magnitude of the momentum of train car 1 before and after the collision:
(i) p1 initial = p1 final
(ii) p1 initial > p1 final
(iii) p1 initial < p1 final
a. What is the initial momentum of the first train car?
b. What is the mass of the second train car?
c. What is the change in kinetic energy of the two train system during the collision?
d. Now the same two cars are involved in a second collision. The first car is again moving to the right with a speed of v1 = 7.3 m/s and collides with the second train car that is now moving to the left with a velocity v2 = -5.5 m/s before the collision. The two cars latch together at impact.
What is the final velocity of the two-car system? (A positive velocity means the two train cars move to the right – a negative velocity means the two train cars move to the left.)
e. Compare the magnitude of the momentum of train car 1 before and after the collision:
(i) p1 initial = p1 final
(ii) p1 initial > p1 final
(iii) p1 initial < p1 final
Answers
Answered by
AHHOOOOGA! Homework Dump!
No ideas on any of these?
Answered by
henry2,
Given:
M1 = 591kg, V1 = 7.3m/s.
M2 = ?, V2 = 0?
Vf = 4.7m/s = Velocity of M1 and M2 after collision.
a. p1 = M1*V1 = 591 * 7.3 = 4314.
b. p before = p after.
M1*V1 + M2*V2 = M1*Vf + M2*Vf.
4314 + M2*0 = 591*4.7 + M2*4.7
4314 = 2778 + 4.7M2,
M2 = 327 kg.
c. KE2 - KE1 = 0.5(M1+M2)*Vf^2 - 0.5M1* V1^2.
M1 = 591kg, V1 = 7.3m/s.
M2 = ?, V2 = 0?
Vf = 4.7m/s = Velocity of M1 and M2 after collision.
a. p1 = M1*V1 = 591 * 7.3 = 4314.
b. p before = p after.
M1*V1 + M2*V2 = M1*Vf + M2*Vf.
4314 + M2*0 = 591*4.7 + M2*4.7
4314 = 2778 + 4.7M2,
M2 = 327 kg.
c. KE2 - KE1 = 0.5(M1+M2)*Vf^2 - 0.5M1* V1^2.
Answered by
henry2,
d. Given:
M1 = 591 kg, V1 = 7.3 m/s.
M2 = 327 kg, V2 = -5.5 m/s.
Vf = ?
p before = p after.
M1*V1 + M2*V2 = M1*Vf + M2*Vf.
4314 + 327 * (-5.5) = 591*Vf + 327*Vf,
Vf = ?
M1 = 591 kg, V1 = 7.3 m/s.
M2 = 327 kg, V2 = -5.5 m/s.
Vf = ?
p before = p after.
M1*V1 + M2*V2 = M1*Vf + M2*Vf.
4314 + 327 * (-5.5) = 591*Vf + 327*Vf,
Vf = ?
Answered by
̆Ms. Sue
Don't give this idiot the answer, Please?
Answered by
richard cheese
come up with your own problems Ms Sue
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