The small mass m = 3.5 kg and big mass M = 5.8 kg are initially at rest with the small mass at the top of the inclined surface. The small mass will start sliding down the large mass M without friction. The large mass itself is also free to move on a frictionless horizontal surface. Given that h = 4.6 meter, what will the magnitude of the velocity of the mass Mwhen it reaches the horizontal surface? Take g =9.81 m/s2 Provide your answer with 2 decimal places. h M
The small mass m = 3.5 kg and big mass M = 5.8 kg are initially at rest with the small mass at the top of the inclined surface. The small mass will start sliding down the large mass M without friction. The large mass itself is also free to move on a frictionless horizontal surface. Given that h = 4.6 meter, what will the magnitude of the velocity of the mass Mwhen it reaches the horizontal surface? Take g =9.81 m/s2 Provide your answer with 2 decimal places. h M
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Transcribed Image Text:The small mass m = 3.5 kg and big mass M = 5.8 kg are initially at rest with the small mass at the top of the inclined surface. The small mass
will start sliding down the large mass M without friction. The large mass itself is also free to move on a frictionless horizontal surface. Given
that h = 4.6 meter, what will the magnitude of the velocity of the mass M when it reaches the horizontal surface?
Take g =9.81 m/s?
Provide your answer with 2 decimal places.
h
M
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