FInd the full derivation of the two equations below solving the expression for the velocity of the metal ball in terms of the angle θ swept through by the pendulum.1/2 (m+M)V^2 = (m+M)ghh = R(cos θ0 − cos θ)Picture of the equations are attached. Using the values below find the intial velcity using the equation found above. (Answer is 8.16 m/s) θRmM2530cm30g300g 1(m+ M)V2 (m+ M)gh(6.8)Here, h is the height of the combined (pendulum bob metal ball) above their lowestpoint. This relation permits us to calculate the maximum height h that the pendulumreaches from the combined velocity V , which was calculated from the initial velocityof the projectile in the first partDue to the design of our pendulum, we have one final step. We will not be measuringthe height h which the cup in the pendulum rises to, but rather the angle 0 throughwhich it sweeps. By examining figure 1, it is clear that h can be representedfunction of 0 in the following way:as aR(cos 00 - cos 0)(6.9)h11

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Description: FInd the full derivation of the two equations below solving the expression for the velocity of the metal ball in terms of the angle θ swept through by the pendulum.1/2 (m+M)V^2 = (m+M)ghh = R(cos θ0 − cos θ)Picture of the equations are attached. Usin

From the conservation of momentum and energy, the expression for the velocity can be found out.

Answered: 1 (m+ M)V2 (m+ M)gh (6.8) Here, h is…

College Physics

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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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FInd the full derivation of the two equations below solving the expression for the velocity of the metal ball in terms of the angle θ swept through by the pendulum.

1/2 (m+M)V^2 = (m+M)gh

h = R(cos θ0 − cos θ)

Picture of the equations are attached.

Using the values below find the intial velcity using the equation found above. (Answer is 8.16 m/s)

θ	R	m	M
25	30cm	30g	300g

1
(m+ M)V2 (m+ M)gh
(6.8)
Here, h is the height of the combined (pendulum bob metal ball) above their lowest
point. This relation permits us to calculate the maximum height h that the pendulum
reaches from the combined velocity V , which was calculated from the initial velocity
of the projectile in the first part
Due to the design of our pendulum, we have one final step. We will not be measuring
the height h which the cup in the pendulum rises to, but rather the angle 0 through
which it sweeps. By examining figure 1, it is clear that h can be represented
function of 0 in the following way:
as a
R(cos 00 - cos 0)
(6.9)
h
11

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