2. A pendulum bob, m,, of mass 0.300 kg is held at a vertical height of 0.400 m above the bottom of its swing. It is then released and swings down. Just as it passes through its lowest point in the swing it hits a block, m, of mass 0.0500 kg. On collision m, transfers 20. 0% of its total energy to m2. m, then slides for 1.00 m along a flat surface where the coefficient of friction between m, and the surface is 0.100. Determine: I a) The speed of m1 just before hitting m2. b) The total energy of m2 right after it was hit by m1. c) The total energy of m2 at the bottom of the ramp

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Chapter1: Units, Trigonometry. And Vectors
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2. A pendulum bob, m,, of mass 0.300 kg is held at a vertical height of 0.400 m above the
bottom of its swing. It is then released and swings down. Just as it passes through its lowest
point in the swing it hits a block, m,, of mass 0.0500 kg. On collision m, transfers 20. 0% of
its total energy to m,. m, then slides for 1.00 m along a flat surface where the coefficient of
friction between m, and the surface is 0.100. Determine:
a) The speed of m1 just before hitting m2.
b) The total energy of m2 right after it was hit by m1.
c) The total energy of m2 at the bottom of the ramp
d) The max height of m2 on the ramp before it comes to a momentary stop. (Ignore
friction on the ramp)
I
momentary
{ stop
mess/
mass 2
1,00m
hit
Mx* 0.100
Transcribed Image Text:2. A pendulum bob, m,, of mass 0.300 kg is held at a vertical height of 0.400 m above the bottom of its swing. It is then released and swings down. Just as it passes through its lowest point in the swing it hits a block, m,, of mass 0.0500 kg. On collision m, transfers 20. 0% of its total energy to m,. m, then slides for 1.00 m along a flat surface where the coefficient of friction between m, and the surface is 0.100. Determine: a) The speed of m1 just before hitting m2. b) The total energy of m2 right after it was hit by m1. c) The total energy of m2 at the bottom of the ramp d) The max height of m2 on the ramp before it comes to a momentary stop. (Ignore friction on the ramp) I momentary { stop mess/ mass 2 1,00m hit Mx* 0.100
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