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The moment of inertia in angular kinematics or kinetics corresponds to mass in linear kinematics or kinetics. a. True b. False
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The moment of inertia in angular kinematics or kinetics corresponds to mass in linear kinematics or kinetics.

a. True
b. False

User Sir Rubberduck
by
5.5k points

1 Answer

2 votes

Answer:

True

Step-by-step explanation:

Rotational and linear motions are analogous to each other.

The inertia of a body in a linear motion is its mass. This can be seen from Newton's second law of thermodynamics:

F = ma

The larger the value of the force, the larger the inertia is (m) and the slower it accelerates.

The inertia of a body in a rotational body is it moment of inertia (I). Both I and m are same but I depends on both the shape and mass of the rotating body.

For example, The inertia of a solid disk with mass M and radius R is:


I=\frac {1}{2}* MR^2

Hence, the statement is true.

User Cruisepandey
by
5.4k points
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