In the figure, we must apply a force of magnitude 83.0 N to hold the block stationary at x = -3.00 cm. From that position, we then slowly move the block so that our force does +4.00 J of work on the spring-block system; the block is then again stationary. What are the block's positions? ((a) positive and (b) negative) (a) Number i (b) Number i x=0 F = 0 00000000 x positive F, negative m ! ! (a) (b) ā Units -Block attached to spring x negative F, positive cm Units cm x

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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In the figure, we must apply a force of magnitude 83.0 N to hold the block stationary at x = -3.00 cm. From that position,
we then slowly move the block so that our force does +4.00 J of work on the spring-block system; the block is then
again stationary. What are the block's positions? ((a) positive and (b) negative)
(a) Number
i
(b) Number i
x=0
F = 0
00000000
x positive
F, negative
m
!
!
(a)
(b)
ā
Units
-Block
attached
to spring
x negative
Ę, positive
cm
Units cm
x
Transcribed Image Text:In the figure, we must apply a force of magnitude 83.0 N to hold the block stationary at x = -3.00 cm. From that position, we then slowly move the block so that our force does +4.00 J of work on the spring-block system; the block is then again stationary. What are the block's positions? ((a) positive and (b) negative) (a) Number i (b) Number i x=0 F = 0 00000000 x positive F, negative m ! ! (a) (b) ā Units -Block attached to spring x negative Ę, positive cm Units cm x
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