A spring and block are in the arrangement of the figure. When the block is pulled out to x = +5.0 cm, we must apply a force of magnitude 360 N to hold it there. We pull the block to x = 12.0 cm and then release it. How much work does the spring do on the block when the block moves from x; = +5.0 cm to (a) x = +4.0 cm, (b) x = -4.0 cm, (c) x= -5.0 cm, and (d) x = -10.0 cm? Block attached to spring X = 0 F = 0 (a) x positive F, negative oood (b) x negative F, positive (c) (a) Number i ! Units (b) Number i Units (c) Number i Units (d) Number i Units

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Chapter1: Units, Trigonometry. And Vectors
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A spring and block are in the arrangement of the figure. When the block is pulled out to x = +5.0 cm, we must apply a force of
magnitude 360 N to hold it there. We pull the block to x = 12.0 cm and then release it. How much work does the spring do on the
block when the block moves from x; = +5.0 cm to (a) x = +4.0 cm, (b) x = -4.0 cm, (c) x= -5.0 cm, and (d) x = -10.0 cm?
X = 0
-Block
F = 0
attached
to spring
(a)
x positive
F, negative
(b)
x negative
F, positive
(c)
(a) Number
i
!
Units
(b) Number
i
!
Units
(c)
Number
i
Units
(d) Number
i
!
Units
Transcribed Image Text:A spring and block are in the arrangement of the figure. When the block is pulled out to x = +5.0 cm, we must apply a force of magnitude 360 N to hold it there. We pull the block to x = 12.0 cm and then release it. How much work does the spring do on the block when the block moves from x; = +5.0 cm to (a) x = +4.0 cm, (b) x = -4.0 cm, (c) x= -5.0 cm, and (d) x = -10.0 cm? X = 0 -Block F = 0 attached to spring (a) x positive F, negative (b) x negative F, positive (c) (a) Number i ! Units (b) Number i ! Units (c) Number i Units (d) Number i ! Units
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