pleaseee help For a simple pendulum, why must the pendulum'soscillations be small in order for the pendulum'smotion to resemble simple harmonic motion?A. The mass of the bob on the pendulum must belarge or this will not work.B. The oscillations must be small so that tension andgravity are essentially aligned.C. The oscillations must be small to reduce airresistance.D. The condition sin e = 0 is not met for the largeangles of large oscillations.CQuestion 101 ptsPendulum A has length Land a bob of mass M at itsend. Pendulum B has length L/4 and a bob of massM/9 at its end. If both pendulums are set in motionwith small amplitude oscillations, what is the ratio oftheir frequencies fA/fB?А. 2/1В. 1/4С. 1/2D. 2/3 A spring with spring constant k hangs vertically.Fermina hangs a mass from the spring and displacesit from its equilibrium position so that it oscillates upand down at a frequency f. She then removes thismass and replaces it with a mass with four times themass of the original one, and sets it to oscillate again.What will the frequency be now?A. f/2В. 4fC. f/4D. 2fQuestion 81 ptsThe period of a simple harmonic oscillator is 0.04 s.What is its angular frequency?А. 25 л rad/sB. 50 rad/sC. 50 rad/sD. 40 T rad/s

For a simple pendulum , the oscillations is kept small so as to reduce the air resistance andmatch…

For a simple pendulum, why must the pendulum's oscillations be small in order for the pendulum's motion to resemble simple harmonic motion? A. The mass of the bob on the pendulum must be large or this will not work. B. The oscillations must be small so that tension a gravity are essentially aligned. C. The oscillations must be small to reduce air resistance. D. The condition sin 0 = 0 is not met for the large angles of large oscillations.

For a simple pendulum, why must the pendulum's oscillations be small in order for the pendulum's motion to resemble simple harmonic motion? A. The mass of the bob on the pendulum must be large or this will not work. B. The oscillations must be small so that tension a gravity are essentially aligned. C. The oscillations must be small to reduce air resistance. D. The condition sin 0 = 0 is not met for the large angles of large oscillations.

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

pleaseee help

For a simple pendulum, why must the pendulum's
oscillations be small in order for the pendulum's
motion to resemble simple harmonic motion?
A. The mass of the bob on the pendulum must be
large or this will not work.
B. The oscillations must be small so that tension and
gravity are essentially aligned.
C. The oscillations must be small to reduce air
resistance.
D. The condition sin e = 0 is not met for the large
angles of large oscillations.
C
Question 10
1 pts
Pendulum A has length Land a bob of mass M at its
end. Pendulum B has length L/4 and a bob of mass
M/9 at its end. If both pendulums are set in motion
with small amplitude oscillations, what is the ratio of
their frequencies fA/fB?
А. 2/1
В. 1/4
С. 1/2
D. 2/3

A spring with spring constant k hangs vertically.
Fermina hangs a mass from the spring and displaces
it from its equilibrium position so that it oscillates up
and down at a frequency f. She then removes this
mass and replaces it with a mass with four times the
mass of the original one, and sets it to oscillate again.
What will the frequency be now?
A. f/2
В. 4f
C. f/4
D. 2f
Question 8
1 pts
The period of a simple harmonic oscillator is 0.04 s.
What is its angular frequency?
А. 25 л rad/s
B. 50 rad/s
C. 50 rad/s
D. 40 T rad/s

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