The 10 kg block A slides down the plane with a constant velocity when = 30°. Determine the equations of motion of block A during this state where N is the normal force and is the friction coefficient. B 01 O a. [Fx = 10 sin 30° - HKN = 0, [Fy= N - 10 cos 30º = 0 O b. [Fx = 10 sin 30° - MKN = 0, [Fy= N - 10 cos 30º = 10 (9.81) O c. [Fx = 10 sin 30° + MKN = 0, [Fy= N + 10 cos 30º = 10 (9.81) O d. [Fx = 10 sin 30° + N = 0, [Fy= N-10 cos 30º = 0

The 10 kg block A slides down the plane with a constant velocity when = 30°. Determine the equations of motion of block A during this state where N is the normal force and is the friction coefficient. B 01 O a. [Fx = 10 sin 30° - HKN = 0, [Fy= N - 10 cos 30º = 0 O b. [Fx = 10 sin 30° - MKN = 0, [Fy= N - 10 cos 30º = 10 (9.81) O c. [Fx = 10 sin 30° + MKN = 0, [Fy= N + 10 cos 30º = 10 (9.81) O d. [Fx = 10 sin 30° + N = 0, [Fy= N-10 cos 30º = 0

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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