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 Course  Lecture
  • Title: Kinematics of Machines
  • Department: Mechanical Engineering
  • Author: Prof. Ashok K Mallik
  • University: IIT kanpur
  • Type: WebLink
  • Abstract:


    Note on the model curriculum prepared by AICTE

    Five of the seven topics listed under the heading Kinematics of Machine belongs to dynamics. These are:

    i. Breaks and dynamometers
    ii. Inertia force analysis
    iii. Governors
    iv. Gyroscope
    v. Balancing

    On the other hand, the model curriculum of Dynamics of Machines includes the following topic:

    a. Kinematics of Gears and Gear trains

    It is decided that the topics on dynamics listed above (i to v) will be covered in the course on Dynamics of Machines whereas the topic (a) above will be covered in Kinematics of Machines course.

    Detailed Course Content with modules for video lectures

    Module 1 (3 hr)
    Kinematics and Dynamics, Mechanisms and Machines, Plane and Space Mechanisms, Kinematic Pairs, Kinematic Chains, Kinematic Diagrams, Kinematic Inversion

    Four Link Planar Mechanisms and their Inversions

    Module 2 (3 hr)
    Mobility and range of movement - Kutzbach and Grubler’s criterion, Number Synthesis, Grashof’s criterion

    Module 3 (2 hr)
    Displacement analysis of plane mechanisms– graphical and analytical methods

    Module 4 (3 hr)
    Plane motion of a rigid body, Instantaneous Centre (IC) of Velocity, Velocity analysis using IC

    Module 5 (3 hr)
    Velocity and Acceleration Diagrams, Velocity and Acceleration Images, Corioli’s component of acceleration.

    Module 6 (2 hr)
    Dimensional synthesis of mechanism; motion, path and function generation, precision point approach, Chebyshev spacing

    Module 7 (3 hr)
    Three position synthesis, graphical approach for four link mechanisms.

    Module 8 (2 hr)
    Advanced synthesis solutions, branch and order defects

    Module 9 (3 hr)
    Analytical methods, straight line mechanisms

    Module 10 (2 hr)
    Special Mechanisms - Indicator Diagram Mechanisms, Steering Mechanism, Hookes Joint

    Module 11 (3 hr)
    Cams – classification of cams and followers, nomenclature, description and analysis of follower motion, pressure angle.

    Module 12 (4 hr)
    Determine of basic dimensions and synthesis of cam profiles, graphical and analytical methods, cams with specified contours.

    Module 13 (3 hr)
    Gears – terminology, fundamental law of gearing, involute profile.

    Module 14 (3 hr)
    Interference and undercutting, minimum number of teeth, contact ratio, bevel helical, spiral and worm gears

    Module 15 (3 hr)
    Gear Trains – simple, compound and epicyclic gear trains; sliding gear boxes and synchronous gear boxes.

List of Lectures

1 - Module 1 - Lecture 1
2 - Module 1 - Lecture 2
3 - Module 1 - Lecture 3
4 - Module 2 - Lecture 1
5 - Module 2 - Lecture 2
6 - Module 2 - Lecture 3
7 - Module 3 - Lecture 1
8 - Module 3 - Lecture 2
9 - Module 3 - Lecture 3
10 - Module 3 - Lecture 4
11 - Module 4 - Lecture 1
12 - Module 4 - Lecture 2
13 - Module 5 - Lecture 1
14 - Module 5 - Lecture 2
15 - Module 5 - Lecture 3
16 - Module 6 - Lecture 1
17 - Module 6 - Lecture 2
18 - Module 6 - Lecture 3
19 - Module 7 - Lecture 1
20 - Module 7 - Lecture 2
21 - Module 7 - Lecture 3
22 - Module 8 - Lecture 1
23 - Module 8 - Lecture 2
24 - Module 9 - Lecture 1
25 - Module 9 - Lecture 2
26 - Module 9 - Lecture 3
27 - Module 9 - Lecture 4
28 - Module 10 - Lecture 1
29 - Module 10 - Lecture 2
30 - Module 10 - Lecture 3
31 - Module 11 - Lecture 1
32 - Module 11 - Lecture 2
33 - Module 11 - Lecture 3
34 - Module 12 - Lecture 1
35 - Module 12 - Lecture 2
36 - Module 12 - Lecture 3
37 - Module 13 - Lecture 1
38 - Module 13 - Lecture 2
39 - Module 13 - Lecture 3
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