For the situation shown in Figure calculate FL , the magnitude of the force exerted by the left hand. The hands are 0.966 m apart, and the CG of the pole is 0.626 m from the left hand. The mass of the pole is 9.91 kg. Input your answer in N using 3 significant figures. g=9.80 mis2 Center of gravity (CG) is the point where the total weight of the body is assumed to be concentrated. Free-body diagram FA CG F
For the situation shown in Figure calculate FL , the magnitude of the force exerted by the left hand. The hands are 0.966 m apart, and the CG of the pole is 0.626 m from the left hand. The mass of the pole is 9.91 kg. Input your answer in N using 3 significant figures. g=9.80 mis2 Center of gravity (CG) is the point where the total weight of the body is assumed to be concentrated. Free-body diagram FA CG F
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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Transcribed Image Text:For the situation shown in Figure calculate FL , the magnitude of the force exerted by the left hand.
The hands are 0.966 m apart, and the CG of the pole is 0.626 m from the left hand. The mass of the pole is 9.91 kg.
Input your answer in N using 3 significant figures.
g=9.80 m/s?
Center of gravity (CG) is the point where the total weight of the body is assumed to be concentrated.
FR
Free-body
diagram
w
FR
CG
QUESTION 7
A mass that can oscillate
without friction on a horizontal
surface is attached to a
horizontal spring and is pulled
to the right and is released
from rest at the time to=0. The
period of the oscillation is T.
The speed of the mass is V at
the time t. What is the
amplitude of the oscillation?
T= 3.51s, V= 9.16m/s, t=3.68s.
F.
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