a 690N block is resting on an inclined plane and is subjected to a constant force of 875N acting parallel to the inclined plane. After the block has moved 4.69m from rest along the inclined plane, the force 600N is removed. The inclined plane has a slope of 4 vertical and 3 horizontal. Coefficient of friction is 0.23. a. Which of the following gives the distance that the block will move further along the inclined plane until it stops. b. Which of the following gives the velocity of the block when the force 875N was removed. c. Which of the following gives the velocity of the block when it returns to its initial position?
a 690N block is resting on an inclined plane and is subjected to a constant force of 875N acting parallel to the inclined plane. After the block has moved 4.69m from rest along the inclined plane, the force 600N is removed. The inclined plane has a slope of 4 vertical and 3 horizontal. Coefficient of friction is 0.23. a. Which of the following gives the distance that the block will move further along the inclined plane until it stops. b. Which of the following gives the velocity of the block when the force 875N was removed. c. Which of the following gives the velocity of the block when it returns to its initial position?
Principles of Foundation Engineering (MindTap Course List)
8th Edition
ISBN:9781305081550
Author:Braja M. Das
Publisher:Braja M. Das
Chapter14: Sheet-pile Walls
Section: Chapter Questions
Problem 14.5P
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a 690N block is resting on an inclined plane and is subjected to a constant force of 875N acting parallel to the inclined plane. After the block has moved 4.69m from rest along the inclined plane, the force 600N is removed. The inclined plane has a slope of 4 vertical and 3 horizontal. Coefficient of friction is 0.23.
a. Which of the following gives the distance that the block will move further along the inclined plane until it stops.
b. Which of the following gives the velocity of the block when the force 875N was removed.
c. Which of the following gives the velocity of the block when it returns to its initial position?
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