The block shown is observed to have a velocity v1 = 23.6 ft/sec as it passes point A and a velocity v2 = 10.6 ft/sec as it passes point B on the incline. Calculate the coefficient of kinetic friction 4k between the block and the incline if x = 49 ft and 8= 12°.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Question 13
The block shown is observed to have a velocity v1 = 23.6 ft/sec as it passes point A and a velocity v2 = 10.6 ft/sec as it passes point B on the incline. Calculate the coefficient of kinetic friction μk between the block and the incline if x = 49 ft and θ = 12°.

The block shown is observed to have a velocity v1 = 23.6 ft/sec as it passes point A and a velocity v2 = 10.6 ft/sec as it passes point B on
the incline. Calculate the coefficient of kinetic friction 4k between the block and the incline if x = 49 ft and 0= 12°.
B
Answer: Hk = i
Transcribed Image Text:The block shown is observed to have a velocity v1 = 23.6 ft/sec as it passes point A and a velocity v2 = 10.6 ft/sec as it passes point B on the incline. Calculate the coefficient of kinetic friction 4k between the block and the incline if x = 49 ft and 0= 12°. B Answer: Hk = i
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