Slide 2: The mass m = 100 g is attached to the spring from slide 1 on a frictionless surface. It is pulled out a distance d = 20 cm and released from rest. What is the maximum speed it achieves, and where does that maximum occur?

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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Only answer the second slide/question

Slide 1: In the figure below, a mass m is initially at rest. The mass is attached to a spring of constant k at via a massless
stretchless string at point A, stretching the spring by Ax = 20 cm from its equilibrium length. Draw vectors representing
the forces at the point A and on the mass m = 100 g. By applying Newton's Laws, solve for the spring constant k. Show
your work.
k
www
A
m
Transcribed Image Text:Slide 1: In the figure below, a mass m is initially at rest. The mass is attached to a spring of constant k at via a massless stretchless string at point A, stretching the spring by Ax = 20 cm from its equilibrium length. Draw vectors representing the forces at the point A and on the mass m = 100 g. By applying Newton's Laws, solve for the spring constant k. Show your work. k www A m
Slide 2: The mass m = 100 g is attached to the spring from slide 1 on a frictionless surface. It is pulled out a distance d
= 20 cm and released from rest. What is the maximum speed it achieves, and where does that maximum occur?
www.
x = 0
x = d
How far does the mass then travel to the left of x = 0? Show your work.
Transcribed Image Text:Slide 2: The mass m = 100 g is attached to the spring from slide 1 on a frictionless surface. It is pulled out a distance d = 20 cm and released from rest. What is the maximum speed it achieves, and where does that maximum occur? www. x = 0 x = d How far does the mass then travel to the left of x = 0? Show your work.
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