Question

Derive an expression for the rotational kinetic energy and hence define Moment of

Inertia of a body.​

Answer 1

Step-by-step explanation:

Consider a rigid body rotating with a constant angular velocity

ω

about an axis passing through the point O.

As the body rotates, all the particles perform uniform circular motion.

The linear speed of the particle with mass m

1

is V

1

=r

1

ω. Therefore, its kinetic energy is

E

1

=

2

1

m

1

V

1

2

=

2

1

m

1

r

1

2

ω

2

Similarly, the kinetic energy of the particle with mass m

2

is E

2

=

2

1

m

2

V

2

2

=

2

1

m

2

r

2

2

ω

2

and so on. The rotational kinetic energy of the body is

E

rot

=E

1

+E

2

+....+E

N

=

2

1

m

1

r

2

2

ω

2

+

2

1

m

2

r

2

2

ω

2

+...+

2

1

m

N

r

N

2

ω

2

=

2

1

[m

1

r

1

2

+m

2

r

2

2

+....+m

N

r

N

2

]ω

2

=

2

1

(

i=1

∑

N

m

i

r

i

2

)ω

2

∴E

rot

=

2

1

Iω

2

KE=

2

1

Iω

2

L=Iω,ω=

I

L

KE=

2

1

I×(

I

L

)

2

=

2

1

I

I

2

L

2

(∵I=MK

2

)

=

2

1

I

L

2

=

2

1

MK

2

L

2

=

2M

1

[

K

L

]

2