A file cabinet weighing 215 lb is being pushed to the right with a horizontal force P applied a distance from the floor. The width of the file cabinet is w= 15 in., its mass center G is a distance d = 2 ft above the floor, and static friction is insufficient to prevent slipping between the cabinet and the floor. The coefficient of kinetic friction between the cabinet and the floor is uk = 0.28. Take the value of P to be 70 lb. io id io ion Determine the maximum height hat which the cabinet can be pushed so that it does not tip over, and find the corresponding acceleration of the cabinet. The maximum height at which the cabinet can be pushed so that it does not tip over is The acceleration of the cabinet is 1.466 ft/s². 1.7 ft.

A file cabinet weighing 215 lb is being pushed to the right with a horizontal force P applied a distance from the floor. The width of the file cabinet is w= 15 in., its mass center G is a distance d = 2 ft above the floor, and static friction is insufficient to prevent slipping between the cabinet and the floor. The coefficient of kinetic friction between the cabinet and the floor is uk = 0.28. Take the value of P to be 70 lb. io id io ion Determine the maximum height hat which the cabinet can be pushed so that it does not tip over, and find the corresponding acceleration of the cabinet. The maximum height at which the cabinet can be pushed so that it does not tip over is The acceleration of the cabinet is 1.466 ft/s². 1.7 ft.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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4
10
points
A file cabinet weighing 215 lb is being pushed to the right with a horizontal force P applied a distance h from the floor. The
width of the file cabinet is w = 15 in., its mass center G is a distance d = 2 ft above the floor, and static friction is insufficient
to prevent slipping between the cabinet and the floor. The coefficient of kinetic friction between the cabinet and the floor
is Uk = 0.28. Take the value of P to be 70 lb.
01 0!!! 01
Determine the maximum height ŉ at which the cabinet can be pushed so that it does not tip over, and find the corresponding
acceleration of the cabinet.
The maximum height at which the cabinet can be pushed so that it does not tip over is
The acceleration of the cabinet is 1.466 ft/s².
1.7
x ft.

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