Course: Theory of Machines-II

Section outline

Select section Unit 1 - Gyroscopic Couple and Precesional Motion

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Unit 1 - Gyroscopic Couple and Precesional Motion

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- Select activity Lect 1_Syllabus, Introduction, Gyroscopic couple definition
  
  Lect 1_Syllabus, Introduction, Gyroscopic couple definition URL
  
  Students must
  
  Mark as done
- Select activity Lect 2_Terminology, Magnitude of Gyroscopic couple
  
  Lect 2_Terminology, Magnitude of Gyroscopic couple URL
  
  Students must
  
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- Select activity Lect 3_Effect of Gyroscopic couple on Aeroplane
  
  Lect 3_Effect of Gyroscopic couple on Aeroplane URL
  
  Students must
  
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- Select activity Lect 4_Effect of Gyroscopic couple on Naval Ship
  
  Lect 4_Effect of Gyroscopic couple on Naval Ship URL
  
  Students must
  
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- Select activity Lect 5_Stability of a Four wheeler Automobile while taking a turn_Part 1
  
  Lect 5_Stability of a Four wheeler Automobile while taking a turn_Part 1 URL
  
  Students must
  
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- Select activity Lect 6_Stability of a Four wheeler Automobile while taking a turn_Part 2
  
  Lect 6_Stability of a Four wheeler Automobile while taking a turn_Part 2 URL
  
  Students must
  
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- Select activity Lect 7_Problems related to Gyroscopic couple
  
  Lect 7_Problems related to Gyroscopic couple URL
  
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- Select activity Lect 8_Problems on Gyroscopic couple_Stability of Automobile
  
  Lect 8_Problems on Gyroscopic couple_Stability of Automobile URL
  
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- Select activity Lect 9_Problems on Stability of Automobile_limiting velocity problem
  
  Lect 9_Problems on Stability of Automobile_limiting velocity problem URL
  
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- Select activity Unit 1 - Gyroscopic Couple and Precesional Motion material
  
  Unit 1 - Gyroscopic Couple and Precesional Motion material File
  
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Select section Unit 2 - Toothed Gears & Gear Trains

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Unit 2 - Toothed Gears & Gear Trains
- Select activity Lect 1_Syllabus, Introduction and Classifications
  
  Lect 1_Syllabus, Introduction and Classifications URL
  
  Students must
  
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- Select activity Lect 2_Terminology of Gears
  
  Lect 2_Terminology of Gears URL
  
  Students must
  
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- Select activity Lect 3_Condition for Constant velocity ratio
  
  Lect 3_Condition for Constant velocity ratio URL
  
  Students must
  
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- Select activity Lect 4_Velocity of sliding
  
  Lect 4_Velocity of sliding URL
  
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- Select activity Lect 5_Forms of Gear tooth - Cycloid, Involute gear teeth
  
  Lect 5_Forms of Gear tooth - Cycloid, Involute gear teeth URL
  
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- Select activity Lect 6_Length of contact, Arc of contact
  
  Lect 6_Length of contact, Arc of contact URL
  
  Students must
  
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- Select activity Lect 7_Interference in Involute Gears
  
  Lect 7_Interference in Involute Gears URL
  
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- Select activity Lect 8_Minimum number of teeth to avoid interference without interrupting power transmission in gears
  
  Lect 8_Minimum number of teeth to avoid interference without interrupting power transmission in gears URL
  
  Students must
  
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- Select activity Lect 9_Problems related to toothed gears
  
  Lect 9_Problems related to toothed gears URL
  
  Students must
  
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- Select activity Lect 10_Introduction to Gear trains, Syllabus, Analysis of Simple Gear Train
  
  Lect 10_Introduction to Gear trains, Syllabus, Analysis of Simple Gear Train URL
  
  Students must
  
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- Select activity Lect 11_Velocity ratio of Compound gear, Reverted gears and Epicyclic gears
  
  Lect 11_Velocity ratio of Compound gear, Reverted gears and Epicyclic gears URL
  
  Students must
  
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- Select activity Unit 2.1_Toothed Gearing
  
  Unit 2.1_Toothed Gearing File
  
  Students must
  
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- Select activity Unit 2.2_Gear Trains
  
  Unit 2.2_Gear Trains File
  
  Students must
  
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Select section Unit 3 - Balancing of Rotating and Reciprocating Masses

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Unit 3 - Balancing of Rotating and Reciprocating Masses
- Select activity Lect 1_syllabus, balancing of single unbalanced mass using single balancing mass rotating in same plane
  
  Lect 1_syllabus, balancing of single unbalanced mass using single balancing mass rotating in same plane URL
  
  Students must
  
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- Select activity Lect 2_Balancing of Single unbalanced mass by two balancing masses rotating in different planes
  
  Lect 2_Balancing of Single unbalanced mass by two balancing masses rotating in different planes URL
  
  Students must
  
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- Select activity Lect 3_Balancing of multiple unbalanced masses by a single balancing mass, all these masses lie on same plane
  
  Lect 3_Balancing of multiple unbalanced masses by a single balancing mass, all these masses lie on same plane URL
  
  Students must
  
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- Select activity Lect 4_Balancing of Multiple Unbalanced masses by two balancing masses, all these masses lying in different planes
  
  Lect 4_Balancing of Multiple Unbalanced masses by two balancing masses, all these masses lying in different planes URL
  
  Students must
  
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- Select activity Lect 5_Syllabus, Introduction of Balancing of Reciprocating Masses
  
  Lect 5_Syllabus, Introduction of Balancing of Reciprocating Masses URL
  
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- Select activity Lect 6_Magnitudes of Primary and Secondary unbalanced reciprocating forces
  
  Lect 6_Magnitudes of Primary and Secondary unbalanced reciprocating forces URL
  
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- Select activity Lect 7_Partial Balancing of Primary unbalanced reciprocating masses
  
  Lect 7_Partial Balancing of Primary unbalanced reciprocating masses URL
  
  Students must
  
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- Select activity Lect 8_Effect of Partial Balancing - Variation of Tractive Force, Swaying Couple and Hammer Blow
  
  Lect 8_Effect of Partial Balancing - Variation of Tractive Force, Swaying Couple and Hammer Blow URL
  
  Students must
  
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- Select activity Balancing of Rotating Masses
  
  Balancing of Rotating Masses File
  
  Students must
  
  Mark as done
- Select activity Balancing of Reciprocating Masses
  
  Balancing of Reciprocating Masses File
  
  Students must
  
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Select section Unit 4 - Vibrations

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Unit 4 - Vibrations
- Select activity Lect 1 - Syllabus, Introduction, Classifications, Equilibrium method to find the natural frequency of free longitudinal vibrations having single DOF
  
  Lect 1 - Syllabus, Introduction, Classifications, Equilibrium method to find the natural frequency of free longitudinal vibrations having single DOF URL
  
  Students must
  
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- Select activity Lect 2 - Energy method and Rayleigh's method to find the natural frequency of free longitudina vibrations having single DOF
  
  Lect 2 - Energy method and Rayleigh's method to find the natural frequency of free longitudina vibrations having single DOF URL
  
  Students must
  
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- Select activity Lect 3 - Natural Frequency of free transverse vibrations
  
  Lect 3 - Natural Frequency of free transverse vibrations URL
  
  Students must
  
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- Select activity Lect 4 -Natural frequency of free transverse vibration for a simply supported shaft sibjected to multiple point loads
  
  Lect 4 -Natural frequency of free transverse vibration for a simply supported shaft sibjected to multiple point loads URL
  
  Students must
  
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- Select activity Lect 5 - Natural frequency of free torsional vibrations, single rotor system
  
  Lect 5 - Natural frequency of free torsional vibrations, single rotor system URL
  
  Students must
  
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- Select activity Lect 6 - Natural frequency of free torsional vibrations for two rotor system
  
  Lect 6 - Natural frequency of free torsional vibrations for two rotor system URL
  
  Students must
  
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- Select activity Lect 7 - Natural Frequency of free torsional vibrations for a three rotor system
  
  Lect 7 - Natural Frequency of free torsional vibrations for a three rotor system URL
  
  Students must
  
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- Select activity Lect 8 - Natural frequency of free torsional vibrations for a geared system
  
  Lect 8 - Natural frequency of free torsional vibrations for a geared system URL
  
  Students must
  
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Select section Unit 5 - CAMS

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Unit 5 - CAMS
- Select activity Lect 1 - Introduction, Syllabus, Terminology, Classification of CAMS and Followers, Motion of Follower
  
  Lect 1 - Introduction, Syllabus, Terminology, Classification of CAMS and Followers, Motion of Follower URL
  
  Students must
  
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- Select activity Lect 2 - Uniform Velocity motion of a follower
  
  Lect 2 - Uniform Velocity motion of a follower URL
  
  Students must
  
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- Select activity Lect 3 - Simple Harmonic Motion (SHM) of Follower - Displacement, Velocity and Acceleration
  
  Lect 3 - Simple Harmonic Motion (SHM) of Follower - Displacement, Velocity and Acceleration URL
  
  Students must
  
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- Select activity Lect 4 - Uniform Acceleration and Retardation motion of follower - displacement, velocity and acceleration
  
  Lect 4 - Uniform Acceleration and Retardation motion of follower - displacement, velocity and acceleration URL
- Select activity Lect 5 - Design of CAM Profile for Inline - Knife edge follower having SHM motion
  
  Lect 5 - Design of CAM Profile for Inline - Knife edge follower having SHM motion URL
- Select activity Lect 6 - Design of CAM Profile for Inline - Knife edge follower with Uniform Acceleration and Retardation motion
  
  Lect 6 - Design of CAM Profile for Inline - Knife edge follower with Uniform Acceleration and Retardation motion URL
- Select activity Lect 7 - Design of CAM Profile for Inline Roller Follower having Uniform Velocity motion
  
  Lect 7 - Design of CAM Profile for Inline Roller Follower having Uniform Velocity motion URL
- Select activity Lect 8 - Design of CAM Profile for Inline Roller follower having Uniform Acceleration and Retardation motion
  
  Lect 8 - Design of CAM Profile for Inline Roller follower having Uniform Acceleration and Retardation motion URL
- Select activity Lect 9 - Design of CAM Profile for Offset Knife edge follower having Uniform Velocity motion
  
  Lect 9 - Design of CAM Profile for Offset Knife edge follower having Uniform Velocity motion URL
- Select activity Lect 10 - Design of CAM Profile for Offset Roller Follower having Uniform Acceleration and Retardation motion
  
  Lect 10 - Design of CAM Profile for Offset Roller Follower having Uniform Acceleration and Retardation motion URL
- Select activity Lect 11 - Design of CAM Profile for Offset Roller follower having Simple Harmonic Motion
  
  Lect 11 - Design of CAM Profile for Offset Roller follower having Simple Harmonic Motion URL
- Select activity Lect 12 - Design of CAM Profile for Offset Roller Follower having Uniform acceleration and retardation motion
  
  Lect 12 - Design of CAM Profile for Offset Roller Follower having Uniform acceleration and retardation motion URL
- Select activity CAMS - HANDOUT MATERIAL
  
  CAMS - HANDOUT MATERIAL URL

Section outline

Unit 1 - Gyroscopic Couple and Precesional Motion

Unit 2 - Toothed Gears & Gear Trains

Unit 3 - Balancing of Rotating and Reciprocating Masses

Unit 4 - Vibrations

Unit 5 - CAMS