This is the same question. (b) If the record of time starts when x = +A and v =0, determine expressions for the displacement, velocity, and acceleration of the oscillating mass along the x axis at any time t later. (Your expression should be in terms of thevariable t and other numerical values. Assume any numerical values in your expression are in standard SI units, but do not enter units into your expression.)X =V =a =(c) If the record of time starts when x =0 and v =+wA, determine expressions for the displacement, velocity, and acceleration of the oscillating mass along the x axis at any time t later. (Your expression should be in terms of thevariable t and other numerical values. Assume any numerical values in your expression are in standard SI units, but do not enter units into your expression.)X =V =a = A mass m =1.97 kg is attached to a spring of force constant k56.9 N/m and set into oscillation on a horizontal frictionless surface by stretching it an amount A0.15 m from its equilibrium position and then releasing it. The figurebelow shows the oscillating mass and the particle on the associated reference circle at some time after its release. The reference circle has a radius A, and the particle traveling on the reference circle has a constant counterclockwisew?A.angular speed w, constant tangential speed V = wA, and centripetal acceleration of constant magnitude a.x =-A+AV= oAot(a) Determine the following.maximum speed of the oscillating massm/smagnitude of the maximum acceleration of the oscillating massm/s2magnitude of the maximum force experienced by the oscillating massNmaximum kinetic energy of the oscillating massmaximum elastic potential energy of the spring attached to the masstotal energy of the oscillating mass-spring systemJ

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Answered: maximum speed of the oscillating mass…

maximum speed of the oscillating mass m/s magnitude of the maximum acceleration of the oscillating mass m/s? magnitude of the maximum force experienced by the oscillating mass

College Physics

11th Edition

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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Question

This is the same question.

(b) If the record of time starts when x = +A and v =
0, determine expressions for the displacement, velocity, and acceleration of the oscillating mass along the x axis at any time t later. (Your expression should be in terms of the
variable t and other numerical values. Assume any numerical values in your expression are in standard SI units, but do not enter units into your expression.)
X =
V =
a =
(c) If the record of time starts when x =
0 and v =
+wA, determine expressions for the displacement, velocity, and acceleration of the oscillating mass along the x axis at any time t later. (Your expression should be in terms of the
variable t and other numerical values. Assume any numerical values in your expression are in standard SI units, but do not enter units into your expression.)
X =
V =
a =

A mass m =
1.97 kg is attached to a spring of force constant k
56.9 N/m and set into oscillation on a horizontal frictionless surface by stretching it an amount A
0.15 m from its equilibrium position and then releasing it. The figure
below shows the oscillating mass and the particle on the associated reference circle at some time after its release. The reference circle has a radius A, and the particle traveling on the reference circle has a constant counterclockwise
w?A.
angular speed w, constant tangential speed V = wA, and centripetal acceleration of constant magnitude a.
x =-A
+A
V= oA
ot
(a) Determine the following.
maximum speed of the oscillating mass
m/s
magnitude of the maximum acceleration of the oscillating mass
m/s2
magnitude of the maximum force experienced by the oscillating mass
N
maximum kinetic energy of the oscillating mass
maximum elastic potential energy of the spring attached to the mass
total energy of the oscillating mass-spring system
J

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