# Mechanics of Machines (ME2033)

[vc_row el_class=”inner-body-content” css=”.vc_custom_1667361747215{padding-top: 30px !important;padding-bottom: 20px !important;}”][vc_column][vc_custom_heading text=”COURSE OBJECTIVES” use_theme_fonts=”yes” css=”.vc_custom_1667361733234{margin-top: 0px !important;}”][vc_column_text]Mechanism design course would help students in achieving the following objectives: To help in understanding different types of mechanisms and underlying concepts of kinematics. To build mathematical models of mechanisms and develop position, velocity and acceleration relations. To understand the dynamic characteristics of planar mechanisms.[/vc_column_text][vc_custom_heading text=”COURSE LEARNING OUTCOMES (CLO)” use_theme_fonts=”yes”][vc_column_text]CLO-1: Analyze the graphical and analytical techniques for position, velocity and acceleration analysis of planar mechanisms. (C4)
CLO-2: Model mechanisms of practical nature like Quick return, straight line, Dwell mechanisms, CAM-Follower and Gear Trains. (C3)
CLO-3: Demonstrate working of mechanisms using MATLAB/Simulink based SimMechanics software tool in term projects. (P3)[/vc_column_text][vc_custom_heading text=”COURSE CONTENTS” use_theme_fonts=”yes”][vc_column_text css=”.vc_custom_1667361720021{margin-bottom: 0px !important;}”]

1. General Principles and background – Two Lectures

• Kinematics and Kinetics.
• Mechanisms and machines.
• Mechanism Design Process.

2. Kinematics – Six Lectures

• Degrees of Freedom
• Links, Joints and kinematic chains
• Planar vs. spatial mechanisms
• Grashof’s condition.
• Practical considerations.

3. Graphical Linkage Synthesis – Six Lectures

• Path and motion generation.
• Coupler curves and cognates.
• Straight line mechanisms
• Dwell mechanisms

4. Position Analysis – Four Lectures

• Coordinate transformation and complex motion
• Graphical methods
• Analytical methods

5. Velocity Analysis – Four Lectures

• Graphical methods using instant centers
• Analytical methods

6. Acceleration Analysis – Four Lectures

• Acceleration analysis examples
• Practical aspects

7. CAM-Follower – Four Lectures

• Types of CAMS and follower motion
• CAM functional considerations
• CAM design and manufacturing considerations

8. Gear Trains – Two Lectures

• Fundamentals of gearing
• Simple and compound gear trains
• Transmissions and Differentials

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