|Q.1. A block of mass m = 0.5 kg is pushed against a horizontal spring of spring constant k 450 N/m and negligible mass. The spring is compressed a distance x from equilibrium, and then released from rest. The block travels along a frictionless horizontal surface and reaches point B with a speed vg = 12 m/s. Take g = 10 m/s2. The compression of the spring is: a.x 0.16 m b. x 0.467 m c. x = 0.533 m B. d. x = 0.4 m

|Q.1. A block of mass m = 0.5 kg is pushed against a horizontal spring of spring constant k 450 N/m and negligible mass. The spring is compressed a distance x from equilibrium, and then released from rest. The block travels along a frictionless horizontal surface and reaches point B with a speed vg = 12 m/s. Take g = 10 m/s2. The compression of the spring is: a.x 0.16 m b. x 0.467 m c. x = 0.533 m B. d. x = 0.4 m

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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Forced undamped vibrations

In mechanical engineering, vibration is expressed as the term that occurs due to an object's backward and forward movement about a point of equilibrium. Generally, there are three types of vibrations which are,

Question

Q.1. A block of mass m = 0.5 kg is pushed against a horizontal spring of spring
constant k = 450 N/m and negligible mass. The spring is compressed a distance x
from equilibrium, and then released from rest. The block travels along a frictionless
horizontal surface and reaches point B with a speed vg =
12 m/s.
Take g = 10 m/s2.
The compression of the spring is:
a. x = 0.16 m
b. x = 0.467 m
c. x = 0.533 m
B.
d. x = 0.4 m

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