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A block of mass, m = 0.40 kg is attached to a spring with force constant, k= 2.5 Nm' and damping constant, b = 0.56 kg s'. The block is in equilibrium at time, t=0, when it receives an impulse that gives it an initial velocity of -0.60 ms!. Given that the expression to describcs the motion of the block for t> 0 is x(t) = Ae 2m sin (wt + po) %3D

A block of mass, m = 0.40 kg is attached to a spring with force constant, k= 2.5 Nm' and damping constant, b = 0.56 kg s'. The block is in equilibrium at time, t=0, when it receives an impulse that gives it an initial velocity of -0.60 ms!. Given that the expression to describcs the motion of the block for t> 0 is x(t) = Ae 2m sin (wt + po) %3D

College Physics
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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pls answer q(iii)
(b) A block of mass, m = 0.40 kg is attached to a spring with force constant, k- 2.5 Nm and damping constant, b = 0.56 kg s'. The block is in equilibrium at time, 1=0, when it receives an impulse that gives it an initial velocity of -0.60 ms'. Given that the expression to describcs the motion of the block for t> 0 is x(t) = Ae¯2m' sin (wt + po) (i) Identify whether this system is overdamped, underdamped or critically damped. (ii) What is the maximum distance from equilibrium that the block can reach, and the time when this occurs. (iii) Use the initial conditions given to identify both the displacement and the velocity of the block as functions of time.
Transcribed Image Text:(b) A block of mass, m = 0.40 kg is attached to a spring with force constant, k- 2.5 Nm and damping constant, b = 0.56 kg s'. The block is in equilibrium at time, 1=0, when it receives an impulse that gives it an initial velocity of -0.60 ms'. Given that the expression to describcs the motion of the block for t> 0 is x(t) = Ae¯2m' sin (wt + po) (i) Identify whether this system is overdamped, underdamped or critically damped. (ii) What is the maximum distance from equilibrium that the block can reach, and the time when this occurs. (iii) Use the initial conditions given to identify both the displacement and the velocity of the block as functions of time.
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