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A 3520 kg truck moving north makes an INELASTIC collision with an 1480 kg car moving 13.0 m/s east. After colliding, they have a velocity of 9.80 m/s at 66.9 degrees. What was the initial velocity of the
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A 3520 kg truck moving north makes an INELASTIC collision with an 1480 kg car moving 13.0 m/s east. After colliding, they have a velocity of 9.80 m/s at 66.9 degrees. What was the initial velocity of the truck? (m/s)

User Stephen Donecker
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3 votes

Answer:

v = 12.8 m/s

Step-by-step explanation:

  • Assuming no external forces acting during the collision, total momentum must be conserved.
  • Since momentum is a vector, their components must be conserved too.
  • Choosing a pair of axes coincident with the N-S and W-E directions, naming x to the W-E axis and y to the N-S one, we can write the following algebraic equations:


p_(ox) = p_(fx) (1)


p_(oy) = p_(fy) (2)

  • Since we know all the information needed to solve (1), assuming a completely inelastic collision, we can focus in (2), writing both sides of the equation as follows:


p_(oy) = m_(t) * v_(ot) = 3520 kg* v_(ot) (3)


p_(fy) = m_(f) * v_(fy) = 5000 kg* 9.8 m/s * sin 66.9 = 45080 kg*m/s (4)

  • Since (4) and (3) are equal each other, we can solve for vot, as follows:


v_(ot) =(45080kg*m/s)/(3520kg) = 12.8 m/s (5)

User Mckamey
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