A block whose mass m is (680*R1+R2) g is fastened to a spring whose spring constant k is (65+R1) N/m. The block is pulled a distance x = (30+R1+R2) cm from its equilibrium position at x =0 on a frictionless surface and released from rest at t=0.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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R2=3
R1=6
A block whose mass m is (680*R1+R2) g is fastened
to a spring whose spring constant k is (65+R1) N/m.
The block is pulled a distance x = (30+R1+R2) cm
from its equilibrium position at x =0 on a frictionless
%3D
surface and released from rest at t =0.
a) What are the angular frequency, the frequency,
and the period of the resulting motion?
b) What is the amplitude of the oscillation?
c) What is the maximum speed ym of the oscillating
block, and where is the block when it has this
speed?
d) What is the magnitude am of the maximum
acceleration, of the block?
e) What is the phase constant p for the motion?
f) What is the displacement function x(t) for the
spring-block system?
Transcribed Image Text:R2=3 R1=6 A block whose mass m is (680*R1+R2) g is fastened to a spring whose spring constant k is (65+R1) N/m. The block is pulled a distance x = (30+R1+R2) cm from its equilibrium position at x =0 on a frictionless %3D surface and released from rest at t =0. a) What are the angular frequency, the frequency, and the period of the resulting motion? b) What is the amplitude of the oscillation? c) What is the maximum speed ym of the oscillating block, and where is the block when it has this speed? d) What is the magnitude am of the maximum acceleration, of the block? e) What is the phase constant p for the motion? f) What is the displacement function x(t) for the spring-block system?
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