15.12.2024, 05:47
Concepts Of Machine Mechanisms, Kinematic Links And Chains
Published 12/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.59 GB | Duration: 6h 4m
Kinematic Links, Kinematic Chains and Pairs, Inversions, Machine and Mechanisms
What you'll learn
Understand the basic concepts of machine mechanisms, including types of links, joints, and chains, and their applications in mechanical systems.
Develop the ability to analyze and visualize relative motion, velocity, and acceleration in planar mechanisms using graphical and analytical methods.
Apply Instantaneous Centre and Relative Velocity Methods
Acquire skills to design, evaluate, and optimize practical mechanical systems like four-bar linkages, slider-crank mechanisms for real-world applications
Requirements
Beginners with no prior experience in mechanical systems can join, as the course will cover concepts from the ground up.
Description
Starting with the fundamentals in this course, you'll explore what machine mechanisms are and how kinematic links and joints come together to form kinematic chains. You'll learn about degrees of freedom and how they determine the functionality of mechanisms. Through practical examples, the course highlights how these concepts are applied in real-world mechanical systems.A major part of the course focuses on velocity analysis using the Relative Velocity Method and the Instantaneous Centre (IC) Method, two essential techniques for studying motion in planar mechanisms. You'll practice solving numerical problems to calculate velocities and accelerations at various points in mechanisms, preparing you to handle real-world challenges.You'll also explore widely used mechanisms such as four-bar linkages, single slider-crank mechanisms, and double slider crank mechanisms, gaining insights into their operation and applications in industries like automotive, robotics, and manufacturing.This course is suitable for beginners, as all topics are explained clearly and gradually, with examples, diagrams, and problem-solving sessions. No prior experience in mechanical engineering is required, making it accessible to all learners. By the end of this course, you'll develop a strong foundation in analyzing and designing mechanical systems. You'll gain practical skills applicable in academia, technical industries, or personal projects, setting you on a path to master machine mechanisms and kinematics. Join now to unlock the mechanics behind motion and prepare for a rewarding career in mechanical engineering
Overview
Section 1: Introduction
Lecture 1 Fundamentals of machines and their mechanisms
Lecture 2 Mechanism
Section 2: Kinematic Links, constrained motions and Kinematic Pairs
Lecture 3 Kinematic Links
Lecture 4 Types of Constrained Motions
Lecture 5 Kinematic Pair
Section 3: Kinematic Chain, Types of Joints and Number of degrees of freedom for plane
Lecture 6 Kinematic Chain
Lecture 7 Types of Joints in a Chain
Lecture 8 Number of Degrees of Freedom for Plane Mechanisms
Section 4: Inversions of Mechanisms
Lecture 9 Introduction : Inversion of Mechanism
Lecture 10 Inversions of Four Bar Chain
Lecture 11 Inversion of Single Slider Crank Chain
Lecture 12 Inversion of Double Slider Crank Chain
Section 5: Methods for Determining the Velocity of a Point on a link
Lecture 13 Velocity of a Point on a Link by Instantaneous Centre Method
Lecture 14 Number and Types of Instantaneous Centres in a Mechanism
Lecture 15 Location of Instantaneous Centres
Lecture 16 Aronhold Kennedy Theorem
Section 6: Velocity in mechanisms using (Relative velocity method)
Lecture 17 Introduction: Relative Velocity of Two Bodies Moving in Straight line
Lecture 18 Motion of a Link
Lecture 19 Velocity of a Point on a Link by Relative Velocity Method
Lecture 20 Velocities in Slider Crank Mechanism
Section 7: Rubbing Velocity at a Pin Joint
Lecture 21 Rubbing Velocity at a Pin Joint
Section 8: Acceleration in Mechanisms
Lecture 22 Acceleration of a link
Lecture 23 Acceleration of a Point on a Link
Lecture 24 Acceleration in the Slider Crank Mechanism
Section 9: Numerical problem based on instantaneous centre and relative velocity method
Lecture 25 Numerical problem based on instantaneous centre method
Lecture 26 Numerical problem 1 : Based on relative velocity method
Lecture 0 Numerical problem 2 : Based on relative velocity method
Lecture 27 Numerical problem based on acceleration in mechanism
This course will be particularly valuable for anyone aiming to develop skills in analyzing, designing, and optimizing machine mechanisms to be applied in different related fields.
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Published 12/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.59 GB | Duration: 6h 4m
Kinematic Links, Kinematic Chains and Pairs, Inversions, Machine and Mechanisms
What you'll learn
Understand the basic concepts of machine mechanisms, including types of links, joints, and chains, and their applications in mechanical systems.
Develop the ability to analyze and visualize relative motion, velocity, and acceleration in planar mechanisms using graphical and analytical methods.
Apply Instantaneous Centre and Relative Velocity Methods
Acquire skills to design, evaluate, and optimize practical mechanical systems like four-bar linkages, slider-crank mechanisms for real-world applications
Requirements
Beginners with no prior experience in mechanical systems can join, as the course will cover concepts from the ground up.
Description
Starting with the fundamentals in this course, you'll explore what machine mechanisms are and how kinematic links and joints come together to form kinematic chains. You'll learn about degrees of freedom and how they determine the functionality of mechanisms. Through practical examples, the course highlights how these concepts are applied in real-world mechanical systems.A major part of the course focuses on velocity analysis using the Relative Velocity Method and the Instantaneous Centre (IC) Method, two essential techniques for studying motion in planar mechanisms. You'll practice solving numerical problems to calculate velocities and accelerations at various points in mechanisms, preparing you to handle real-world challenges.You'll also explore widely used mechanisms such as four-bar linkages, single slider-crank mechanisms, and double slider crank mechanisms, gaining insights into their operation and applications in industries like automotive, robotics, and manufacturing.This course is suitable for beginners, as all topics are explained clearly and gradually, with examples, diagrams, and problem-solving sessions. No prior experience in mechanical engineering is required, making it accessible to all learners. By the end of this course, you'll develop a strong foundation in analyzing and designing mechanical systems. You'll gain practical skills applicable in academia, technical industries, or personal projects, setting you on a path to master machine mechanisms and kinematics. Join now to unlock the mechanics behind motion and prepare for a rewarding career in mechanical engineering
Overview
Section 1: Introduction
Lecture 1 Fundamentals of machines and their mechanisms
Lecture 2 Mechanism
Section 2: Kinematic Links, constrained motions and Kinematic Pairs
Lecture 3 Kinematic Links
Lecture 4 Types of Constrained Motions
Lecture 5 Kinematic Pair
Section 3: Kinematic Chain, Types of Joints and Number of degrees of freedom for plane
Lecture 6 Kinematic Chain
Lecture 7 Types of Joints in a Chain
Lecture 8 Number of Degrees of Freedom for Plane Mechanisms
Section 4: Inversions of Mechanisms
Lecture 9 Introduction : Inversion of Mechanism
Lecture 10 Inversions of Four Bar Chain
Lecture 11 Inversion of Single Slider Crank Chain
Lecture 12 Inversion of Double Slider Crank Chain
Section 5: Methods for Determining the Velocity of a Point on a link
Lecture 13 Velocity of a Point on a Link by Instantaneous Centre Method
Lecture 14 Number and Types of Instantaneous Centres in a Mechanism
Lecture 15 Location of Instantaneous Centres
Lecture 16 Aronhold Kennedy Theorem
Section 6: Velocity in mechanisms using (Relative velocity method)
Lecture 17 Introduction: Relative Velocity of Two Bodies Moving in Straight line
Lecture 18 Motion of a Link
Lecture 19 Velocity of a Point on a Link by Relative Velocity Method
Lecture 20 Velocities in Slider Crank Mechanism
Section 7: Rubbing Velocity at a Pin Joint
Lecture 21 Rubbing Velocity at a Pin Joint
Section 8: Acceleration in Mechanisms
Lecture 22 Acceleration of a link
Lecture 23 Acceleration of a Point on a Link
Lecture 24 Acceleration in the Slider Crank Mechanism
Section 9: Numerical problem based on instantaneous centre and relative velocity method
Lecture 25 Numerical problem based on instantaneous centre method
Lecture 26 Numerical problem 1 : Based on relative velocity method
Lecture 0 Numerical problem 2 : Based on relative velocity method
Lecture 27 Numerical problem based on acceleration in mechanism
This course will be particularly valuable for anyone aiming to develop skills in analyzing, designing, and optimizing machine mechanisms to be applied in different related fields.
Screenshots
Say "Thank You"
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