Gyroscope: Fundamental Concepts And Its Applications
Published 12/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 669.19 MB | Duration: 2h 13m
Published 12/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 669.19 MB | Duration: 2h 13m
Aerospace, Robotics, Mechanical, Design
What you'll learn
Understand the Basic Principles of Gyroscopic Motion and Different Types of Gyroscopes
Importance of Angular Momentum and Torque in Gyroscopic Effects
Analyzing the Gyroscopic couple, Direction of Spin vector, Precession vector and Couple/Torque vector
Analyze the Role of Gyroscopes in Navigation and Stabilization Systems
Understand the role of gyroscope in stability of Four wheel vehicles
Understand the role of gyroscope and key parameters in stability of Two wheel vehicles
Requirements
Basic physics (High School Level) but not essential
Description
This course is designed for a broad range of learners interested in physics, engineering, or technology and want to understand gyroscopic systems, their behavior, and their applications across fields like Mechanical, Mechatronics, Aerospace, Robotics, Navigation, and Product Design. The course is designed to enlighten about relation between angular momentum and torque to understand the mechanism of gyroscope along with mathematical expression, to be applied in applications like aircrafts, ships, four wheel drives, two wheel drives. In aircrafts, the gyroscopic effect can be analyzed on tail and nose of aircraft depending on direction of viewing while aircraft takes left or right turn, or aeroplane takes off or it is landing. In case of ships, effect of gyroscopic couple studied during ship steering, pitching and rolling. In ship steering its effect studied on stern and bow of ship depending on direction of viewing. In case of pitching, its effect studied on star-board side or port side. However in case of rolling its effect is insignificant. Furthermore, gyroscopic effect studied for stability of four wheel drives while vehicle taking turn of curved paths, along with effect of centrifugal couple. In last, gyroscopic effect studied in two wheel vehicles during their turning operations on curved paths along with limiting conditions to avoid skid of vehicle of curved surface.
Overview
Section 1: Introduction
Lecture 1 Introduction :Gyroscope
Lecture 2 Relation between angular momentum and torque in gyroscope
Section 2: Gyroscopic Couple
Lecture 3 Gyroscopic Couple
Section 3: Direction of Spin vector, Precession vector and Couple/Torque vectors
Lecture 4 Direction of Spin vector, Precession vector and CoupleTorque
Section 4: Effect of the Gyroscopic Couple on an Aeroplane in different scenarios
Lecture 5 Effect of the Gyroscopic Couple on an Aeroplane
Section 5: Terms Used in a Ship during stability
Lecture 6 Terms Used in a Ship during stability
Lecture 7 Effect of Gyroscopic Couple during Ship Steering
Lecture 8 Effect of Gyroscopic Couple during Ship Pitching
Lecture 9 Effect of Gyroscopic Couple during Ship Rolling
Section 6: Stability of a Four Wheel Drive While Moving in a Curved Path
Lecture 10 Stability of a Four Wheel Drive While Moving in a Curved Path
Section 7: Stability of a Two Wheel Vehicle Taking a Turn
Lecture 11 Stability of a Two Wheel Vehicle Taking a Turn
This course is designed for a broad range of learners who are interested in understanding gyroscopic systems, their behavior, and their applications across fields. who have an interest in physics, engineering, or technology, particularly those working or studying in fields like Mechanical, Mechatronics, Aerospace, Robotics, Navigation, and Product Design