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Momentum (Linear and Angular)
Moment of Inertia: Momentum of inertia can be defined as
r = distance of the body of mass, m from centre of asis. 
• Very thin circular loop (ring): l=MR2
Thin circular ring
where, M = mass of the body 
R = radius of the ring 
/ = moment of inertia
• Uniform circular loop
/ - E
m.r'
* J
Page 2


Momentum (Linear and Angular)
Moment of Inertia: Momentum of inertia can be defined as
r = distance of the body of mass, m from centre of asis. 
• Very thin circular loop (ring): l=MR2
Thin circular ring
where, M = mass of the body 
R = radius of the ring 
/ = moment of inertia
• Uniform circular loop
/ - E
m.r'
* J
Uniform circular loop
• Uniform solid cylinder
Uniform solid cylinder
• Uniform solid sphere 
/= -M R 1
5
Uniform solid sphere
• Uniform thin rod
(AA" ) moment of inertia about the centre and perpendicular axis to the rod moment 
of inertia about the one corner point and perpendicular (BB’) axis to the rod.
Very thin spherical shell
Page 3


Momentum (Linear and Angular)
Moment of Inertia: Momentum of inertia can be defined as
r = distance of the body of mass, m from centre of asis. 
• Very thin circular loop (ring): l=MR2
Thin circular ring
where, M = mass of the body 
R = radius of the ring 
/ = moment of inertia
• Uniform circular loop
/ - E
m.r'
* J
Uniform circular loop
• Uniform solid cylinder
Uniform solid cylinder
• Uniform solid sphere 
/= -M R 1
5
Uniform solid sphere
• Uniform thin rod
(AA" ) moment of inertia about the centre and perpendicular axis to the rod moment 
of inertia about the one corner point and perpendicular (BB’) axis to the rod.
Very thin spherical shell
Thin sperical shell
I = -M R 2 
3
• Thin circular sheet
4
A'
A’
Thin circular sheet
• Thin rectangular sheet
I
Thin rectangular sheet
• Uniform right cone
I = — MR2 
10
Uniform cone as a disc
Page 4


Momentum (Linear and Angular)
Moment of Inertia: Momentum of inertia can be defined as
r = distance of the body of mass, m from centre of asis. 
• Very thin circular loop (ring): l=MR2
Thin circular ring
where, M = mass of the body 
R = radius of the ring 
/ = moment of inertia
• Uniform circular loop
/ - E
m.r'
* J
Uniform circular loop
• Uniform solid cylinder
Uniform solid cylinder
• Uniform solid sphere 
/= -M R 1
5
Uniform solid sphere
• Uniform thin rod
(AA" ) moment of inertia about the centre and perpendicular axis to the rod moment 
of inertia about the one corner point and perpendicular (BB’) axis to the rod.
Very thin spherical shell
Thin sperical shell
I = -M R 2 
3
• Thin circular sheet
4
A'
A’
Thin circular sheet
• Thin rectangular sheet
I
Thin rectangular sheet
• Uniform right cone
I = — MR2 
10
Uniform cone as a disc
o
A part of uniform cone as a disc
Suppose the given section is 1/n th part of the disc, then mass of disc will be nM. 
Inertia of the disc,
= ^ W ) R 2
Inertia of the section,
T = 1 / =L\fR:
1 \* zuok I du< ‘L a -
Y l 2
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Dec 22, 2024 Last updated
Document Description: Short Notes: Momentum (Linear and Angular) for Mechanical Engineering 2024 is part of Short Notes for Mechanical Engineering preparation. The notes and questions for Short Notes: Momentum (Linear and Angular) have been prepared according to the Mechanical Engineering exam syllabus. Information about Short Notes: Momentum (Linear and Angular) covers topics like and Short Notes: Momentum (Linear and Angular) Example, for Mechanical Engineering 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises and tests below for Short Notes: Momentum (Linear and Angular).
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