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The 10-kg block shown in Fig. 14-6a rests on the smooth incline. If the spring is originally stretched 0.5 m, determine the total work done by all the forces acting on the block when a horizontal force P = 400 N pushes the block up the plane s = 2 m. S = 2 m Initial position of spring 2 sin 30⁰ m -k= 30 N/m P= 400 N o e e e e j j e é e e -2 cos 30° m (a) 30°

The 10-kg block shown in Fig. 14-6a rests on the smooth incline. If the spring is originally stretched 0.5 m, determine the total work done by all the forces acting on the block when a horizontal force P = 400 N pushes the block up the plane s = 2 m. S = 2 m Initial position of spring 2 sin 30⁰ m -k= 30 N/m P= 400 N o e e e e j j e é e e -2 cos 30° m (a) 30°

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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The 10-kg block shown in Fig. 14-6a rests on the smooth incline. If the spring is originally stretched 0.5 m, determine the total work done by all the forces acting on the block when a horizontal force P = 400 N pushes the block up the plane s = 2 m. s = 2m Initial position of spring 2 sin 30⁰ m - k = 30 N/m P= 400 N fe e e e e j pe éle -2 cos 30° m- (a) 30°
Transcribed Image Text:The 10-kg block shown in Fig. 14-6a rests on the smooth incline. If the spring is originally stretched 0.5 m, determine the total work done by all the forces acting on the block when a horizontal force P = 400 N pushes the block up the plane s = 2 m. s = 2m Initial position of spring 2 sin 30⁰ m - k = 30 N/m P= 400 N fe e e e e j pe éle -2 cos 30° m- (a) 30°
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