A 0.69-kg mass is attached to the end of a spring and set into oscillation on a horizontal frictionless surface by releasing it from a compressed position. The record of time is started when the oscillating mass passes through the equilibrium position and the position of the mass at any time is shown in the drawing. x (m) 0.10|- -- 2.0 6.0 t (s) -0.10 Determine the following. (a) amplitude A of the motion .10 (b) angular frequency w 785 rad/s (c) spring constant k 425 N/m (d) speed of the object at t = 2.0 s m/s (e) magnitude of the object's acceleration at t = 2.0 s m/s²

College Physics
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Please answer part 4 and 5

A 0.69-kg mass is attached to the end of a spring and set into oscillation on a horizontal frictionless surface by releasing it from a compressed position. The record of time is started when
the oscillating mass passes through the equilibrium position and the position of the mass at any time is shown in the drawing.
x (m)
0.10
2.0
6.0
t (s)
-0.10
Determine the following.
(a) amplitude A of the motion
.10
(b) angular frequency w
rad/s
.785
(c) spring constant k
425
N/m
(d) speed of the object at t = 2.0 s
m/s
(e) magnitude of the object's acceleration at t = 2.0 s
|m/s2
Transcribed Image Text:A 0.69-kg mass is attached to the end of a spring and set into oscillation on a horizontal frictionless surface by releasing it from a compressed position. The record of time is started when the oscillating mass passes through the equilibrium position and the position of the mass at any time is shown in the drawing. x (m) 0.10 2.0 6.0 t (s) -0.10 Determine the following. (a) amplitude A of the motion .10 (b) angular frequency w rad/s .785 (c) spring constant k 425 N/m (d) speed of the object at t = 2.0 s m/s (e) magnitude of the object's acceleration at t = 2.0 s |m/s2
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