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Two people, one with mass m1 and the other with mass m2, stand on a stationary sled with mass M on a frozen lake. Assume that the ice is frictionless. a) The first person (with mass m1) jumps off the sled
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Two people, one with mass m1 and the other with mass m2, stand on a stationary sled with mass M on a frozen lake. Assume that the ice is frictionless. a) The first person (with mass m1) jumps off the sled with a velocity −sxˆ relative to the (stationary) sled. What is his velocity? Use conservation of momentum to find the velocity of the sled (which is still carrying the second person).

User Sreekanth Pothanis
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1 Answer

1 vote

Answer:


V=(m_1s)/(m_2+M)

Step-by-step explanation:

As we know that if there is no any external force on the system then the linear momentum of system will remain conserve.

Linear momentum P= m .v

If F(net) = 0
P_i=P_f

Given that velocity of first person is s .

Form conservation of momentum

Let V is the final velocity

Initial momentum =
m_1.s

Final momentum =
(m_2+M)V


m_1s=(m_2+M)V


V=(m_1s)/(m_2+M)

User Robbie White
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5.9k points
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