The first figure gives spring force Fx versus position x for the spring-block arrangement of the second figure. The scale is set by F = 190 N. We release the block at x = 13.0 cm. How much work does the spring do on the block when the block moves from x, = +9.0 cm to (a) x = +5.0 cm, (b) x = -5.0 cm, (c) x = -9.0 cm, and (d) x = -11.0 cm? x (cm) -1 -F, Block attached to spring X-0 E-0 (a) positive F, negative

The first figure gives spring force Fx versus position x for the spring-block arrangement of the second figure. The scale is set by F = 190 N. We release the block at x = 13.0 cm. How much work does the spring do on the block when the block moves from x, = +9.0 cm to (a) x = +5.0 cm, (b) x = -5.0 cm, (c) x = -9.0 cm, and (d) x = -11.0 cm? x (cm) -1 -F, Block attached to spring X-0 E-0 (a) positive F, negative

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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Concept explainers

Slope and Deflection

The slope in a deflected beam is described as an angle in radians made by the tangent of the section with the original axis of the beam. The deflection at any point on the axis of the beam is defined as the lateral displacement of the point before and after loading.

Question

The first figure gives spring force Fx versus position x for the spring-block arrangement of the second figure. The scale is set by Fs = 190 N. We release the block at x = 13.0 cm. How much work does the spring do on the block
when the block moves from x; = +9.0 cm to (a) x = +5.0 cm, (b) x = -5.0 cm, (c) x = -9.0 cm, and (d) x = -11.0 cm?
-x (cm)
-2
-1
-F,
X* = 0
Block
attached
to spring
F = 0
(a)
x positive
F, negative F
(b)
x negative
F, positive
(c)

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