Concept Simulation 10.3 illustrates the concepts pertinent to this problem. A 0.84-kg object is attached to one end of a spring, as in the first drawing, and the system is set into simple harmonic motion. The displacement x of the object as a function of time is shown in the second drawing. With the aid of these data, determine (a) the amplitude A of the motion, (b) the angular frequency w, (c) the spring constant k, (d) the speed of the object at t = 1.0 s, and (e) the magnitude of the object's acceleration at t = 1.0 s. - vyús Amplitude A x = 0m is the equilibrium position of the object. Amplitude - A x (m) 0.080 0 Pen -0.080 Displacement X Inter 2.0 1.0 3.0 Time (s) +A ^^^ 4.0 Time

College Physics
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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 c, d, and e 

Concept Simulation 10.3 illustrates the concepts pertinent to this problem. A 0.84-kg object is attached to one end of a spring, as in the
first drawing, and the system is set into simple harmonic motion. The displacement x of the object as a function of time is shown in the
second drawing. With the aid of these data, determine (a) the amplitude A of the motion, (b) the angular frequency w. (c) the spring
constant k, (d) the speed of the object at t = 1.0 s, and (e) the magnitude of the object's acceleration at t = 1.0 s.
Amplitude A-----
x = 0m is the
equilibrium
position of
the object.
- Amplitude = A
x (m)
0.080
0
-0.080
1.0
Pen
2.0
Displacement
X
+A
WAAA
-A
3.0
4.0
(Time (s)
Time
Transcribed Image Text:Concept Simulation 10.3 illustrates the concepts pertinent to this problem. A 0.84-kg object is attached to one end of a spring, as in the first drawing, and the system is set into simple harmonic motion. The displacement x of the object as a function of time is shown in the second drawing. With the aid of these data, determine (a) the amplitude A of the motion, (b) the angular frequency w. (c) the spring constant k, (d) the speed of the object at t = 1.0 s, and (e) the magnitude of the object's acceleration at t = 1.0 s. Amplitude A----- x = 0m is the equilibrium position of the object. - Amplitude = A x (m) 0.080 0 -0.080 1.0 Pen 2.0 Displacement X +A WAAA -A 3.0 4.0 (Time (s) Time
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