moment of inertia experiment analysis

In the first part of this laboratory exercise you will measure the moment of inertia of three different objects about a specified rotational axis and verify the parallel axis theorem. In …

By applying a known torque to a rigid body, measuring the angular acceleration, and using the relationship τ = Iα, the moment of inertia can be determined. In this experiment, a torque is …

The purpose of this experiment is to determine the experimental moment of inertia of a disk and of a ring by using the principle of conservation of energy. The experimental moment of inertia …

Purpose of the experiment. Learn to measure the moments of inertia of a rotating body. Learn how the moment of inertia changes with a respect to mass and location. FYI If you toss a …

Predict the Moment of Inertia of an object according to a simple expression. Verify, with measurement and analysis, the validity of those predictions. Background

Every rigid object has a definite moment of inertia about any particular axis of rotation. Here are several examples of the expression for I for a few rather special objects.

Data Analysis for part A. 1) With error bars, plot the moment of inertia versus the square of the distance of the center of mass of the disk to the axis of the rotary table. 2) Find the slope and the intercept when you fit your five points to a …

In this subsection, we show how to calculate the moment of inertia for several standard types of objects, as well as how to use known moments of inertia to find the moment of inertia for a shifted axis or for a compound object.

Torque and angular acceleration are the rotational analogs of force and acceleration, respectively. Thus, in rotational dynamics, Newton's second Law (F=ma) becomes τ =Iα, τ where is the (net) …