A large block is being pushed against a smaller block such that the smaller block remains elevated while being pushed. The mass of the smaller block is m = 0.30 kg. It is found through repeated experimentation that the blocks need to have a minimum acceleration of a = 14 m/s² in order for the smaller block to remain elevated and not slide down. What is the coefficient of static friction μ, between the two blocks? Hs = 2.943 Incorrect m a
A large block is being pushed against a smaller block such that the smaller block remains elevated while being pushed. The mass of the smaller block is m = 0.30 kg. It is found through repeated experimentation that the blocks need to have a minimum acceleration of a = 14 m/s² in order for the smaller block to remain elevated and not slide down. What is the coefficient of static friction μ, between the two blocks? Hs = 2.943 Incorrect m a
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Transcribed Image Text:A large block is being pushed against a smaller block such that
the smaller block remains elevated while being pushed. The
mass of the smaller block is m = 0.30 kg. It is found through
repeated experimentation that the blocks need to have a
minimum acceleration of a = 14 m/s² in order for the smaller
block to remain elevated and not slide down. What is the
coefficient of static friction μ, between the two blocks?
Hs =
2.943
Incorrect
m
t
a
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