Published 10/2024
Created by Rajan Gosavi (Gold Medalist , M.Tech. )
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 37 Lectures ( 4h 46m ) | Size: 1.14 GB
Conceptual understanding of Theory, Mathematical derivations & Solved examples on Vibrations.
What you’ll learn
You will learn the theory, Derivations & solved examples on Free undamped vibrations or Natural vibrations.
You will learn the conceptual understanding of theory, Derivations & solved examples on Free damped vibrations or Natural vibrations in detail.
You will learn the conceptual understanding of theory, Derivations & solved examples on Force damped vibrations in detail.
You will learn the conceptual understanding of theory, Derivations & solved examples on Torsional vibrations in detail.
Requirements
You must be having knowledge of basic knowledge of Physics & Mechanics.
Description
This comprehensive course on Vibrations is designed for Mechanical Engineering students and professionals seeking to deepen their understanding of dynamic systems. It covers essential topics such as free damped vibrations, free undamped vibrations, forced damped vibrations, and torsional vibrations. Each section of the course is meticulously crafted to provide a solid foundation in the theory behind mechanical vibrations, offering detailed explanations of key concepts.We will explore the physical significance of vibrations in engineering systems and their real-world applications. Through step-by-step derivations of important formulas and equations, you will gain a deeper insight into the mathematical models that govern vibrational behavior. Additionally, the course includes solved examples that illustrate how to apply these models to practical engineering problems.This course is structured to ensure a smooth learning curve, starting from the basic concepts and gradually progressing towards more advanced topics. We begin by discussing free undamped vibrations, where you’ll understand the fundamentals of natural frequency and how mechanical systems respond when no external forces or damping effects are present. Moving forward, we dive into free damped vibrations, highlighting how damping influences system behavior and its importance in real-world engineering applications to prevent excessive oscillations.The course then shifts focus to forced damped vibrations, where we explore how external forces affect the vibrational response of systems, and how to analyze and control these effects. Finally, the section on torsional vibrations covers rotational systems and their unique vibrational characteristics, complete with detailed explanations and practical examples.In addition to the theoretical content, numerous practical examples are solved step-by-step to bridge the gap between theory and real-world applications. You’ll also learn how to interpret vibration data and make informed decisions in design and analysis.By the end of the course, you will be able to confidently approach vibration-related problems and enhance your understanding of mechanical systems’ dynamic behavior, making this course a valuable resource for both academic and industrial contexts.Whether you’re preparing for exams or looking to enhance your professional skills, this course equips you with the tools and knowledge necessary to solve complex vibration problems. By the end of the course, you’ll have a solid understanding of both the theoretical and practical aspects of mechanical vibrations, making you more confident in addressing real-world engineering challenges.
Who this course is for
This course is for Mechanical Engineering students & professionals.
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