221 – Lab 7 Rotational Motion and The Moment of Inertia E, = E, %3D K, +Ug0 +K„, = K, +Ugs +K,s 8,0 `r,0 8,f 1 m,V½,o +m„gY,0 +÷Io 1 m,v +m„gYh,s 2 + "h°h,0 ´h,f Note the position of the hanging mass is y,, and its velocity is v,. The moment of inertia is I for whatever is rotating. 1. Isolate the moment of inertia, algebraically from the above equation as all other variables have been measured.

221 – Lab 7 Rotational Motion and The Moment of Inertia E, = E, %3D K, +Ug0 +K„, = K, +Ugs +K,s 8,0 `r,0 8,f 1 m,V½,o +m„gY,0 +÷Io 1 m,v +m„gYh,s 2 + "h°h,0 ´h,f Note the position of the hanging mass is y,, and its velocity is v,. The moment of inertia is I for whatever is rotating. 1. Isolate the moment of inertia, algebraically from the above equation as all other variables have been measured.

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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Concept explainers

Gravitational force

In nature, every object is attracted by every other object. This phenomenon is called gravity. The force associated with gravity is called gravitational force. The gravitational force is the weakest force that exists in nature. The gravitational force is always attractive.

Acceleration Due to Gravity

In fundamental physics, gravity or gravitational force is the universal attractive force acting between all the matters that exist or exhibit. It is the weakest known force. Therefore no internal changes in an object occurs due to this force. On the other hand, it has control over the trajectories of bodies in the solar system and in the universe due to its vast scope and universal action. The free fall of objects on Earth and the motions of celestial bodies, according to Newton, are both determined by the same force. It was Newton who put forward that the moon is held by a strong attractive force exerted by the Earth which makes it revolve in a straight line. He was sure that this force is similar to the downward force which Earth exerts on all the objects on it.

Question

Find the moments of inertia of the disk and plate by using conservation of mechanical energy.
As described in the Background section, use two points: one taken at near the beginning of its descent,
"initial", and one just prior to the hanging mass reaching its lowest point, “final", to determine the
moment of inertia of the disk/plate.
el Physics
8 of 11
Fall 2021
S221 – Lab 7
Rotational Motion and The Moment of Inertia
E, = E,
K, +U,0 +K,0 = K, +U +K,
r,0 =K,
8,f
`r,f
1
1
m,vo+m„gYh,0
2
+
т,
2
h°h,0
2
2
Note the position of the hanging mass is y,, and its velocity is v,. The moment of inertia is I for
whatever is rotating.
1. Isolate the moment of inertia, algebraically from the above equation as all other variables have been
measured.

1. Perform analysis steps B.1. Derive an algebraic equation for the moment of inertia of the disk/plate by
using the conservation of energy method.
The variables in your equations should be the values you can measure (e.g., mass of hanger, angular
velocities, angular acceleration, positions and/or velocities of the falling mass, etc.) and physical constants
(i.e., the acceleration due to gravity). You should do this on a separate sheet and keep a copy as you will
need it during the lab.

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