Udemy
    •  
    •  
    •  
    •  
    •  
    •  
    •  
    •  
Subscribe
Turn what you know into an opportunity and reach millions around the world.
Learn More
Your cart is empty.
Keep shopping
Mechanical Vibration - Graham Kelly
Rating: 5.0 out of 5(5 ratings)
25 students

Mechanical Vibration - Graham Kelly

A complete Updated Mechanical Vibration Course & Examples for Engineers and Engineering Students
Created byProf. Mohamed Sayed Elashhab ا د. محمد الأشهب
Last updated 10/2025
Arabic

What you'll learn

  • Introduction to mechanical vibration
  • Deep understanding of mechanical vibration
  • Ability to derive the equation of motion of different vibratory systems
  • How to reduce the amplitude of vibration
  • Ability to design vibration absorber or shock absorber for machines and structures to avoid resonance
  • Solve mechanical vibration examples
  • Modeling different vibratory systems

Course content

17 sections138 lectures38h 28m total length

  • Lecture 1 Introduction Part 144:51
  • Lecture 1 Introduction Part 25:30
  • Lecture 1 Introduction Part 3 - Example 113:25
  • Lecture 1 Introduction Part 4 - Example 27:55
  • Lecture 1 Introduction Part 5 - Equivalent Stiffness6:05
  • Lecture 1-2-1 Cantilever Stiffness3:18
  • Lecture 1-2-2 Linear Stiffness combinations9:30
  • Lecture 1-2-3 Torsional Stiffness combinations14:50
  • Lecture 1-2-4 Linear Stiffness combinations example3:21
  • Lecture 1-2-5 Linear Stiffness combinations example4:57
  • Lecture 1-2-6 Torsional propeller Stiffness combinations example3:53

Requirements

  • Calculus

Description

الكورس متوافق مع العديد من الجامعات مثل جامعة الإمام محمد بن سعود

Mechanical Vibration is one of the most important sciences for engineers. The purpose of this course is to enhance the student’s understanding of the physics and mathematics of vibration systems. Shed the light on the application of vibration theory in geophysics. Understand the physical basis of the vibration measuring instruments. Understand the basis for the decay and amplification of the propagating vibratory motion.

The student will gain the general basic knowledge of mechanical vibrations and will be able to use this knowledge in his use of the application of geophysical methods or in seismology to relate observations to the fundamentals of the physics of mechanical vibrations.

       In the First section the learner will be familiar with:

  • Basic concepts of mechanical vibrations

  • Types of mechanical vibration

  • Modelling of the mechanical system

  • Calculating the equivalent stiffness and mass of the systems

  • Deriving the equations of motions

  • Determining the natural frequency of the vibrating systems

  • Solving a lot of examples of free undamped vibration (Linear, Rotational, and Torsional motions)


    In the second section the learner will be familiar with:

  • Basic concepts of dampers

  • Over-damped vibration

  • Critical-damped vibration

  • under-damped vibration


    In third and later sections the learner will be familiar with:

  • Forced Vibration due to Rotating unbalance

  • Forced Vibration due to base excitation

  • Systems with Two or More Degrees of Freedom

Who this course is for:

  • Engineers
  • Technicians
  • Engineering students

Report abuse