Mechanical Vibration - Imam 2024 الاهتزازات الميكانيكية
A complete Updated Mechanical Vibration Course & Examples for Engineers and Engineering Students
5.00 (3 reviews)
9
students
33 hours
content
Feb 2024
last update
$199.99
regular price
What you will 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
Why take this course?
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**🎓 Course Title:** Mechanical Vibration - Imam 2024 🚀
**🧪 Course Headline:** A **Complete & Updated** Mechanical Vibration Course for Engineers and Engineering Students! 🛠️
**🌍 About the Course:**
Mechanical Vibration is a cornerstone in engineering, essential for understanding how systems respond to dynamic forces. This comprehensive course, tailored for engineers and engineering students, dives deep into the physics and mathematics of vibration systems, with a special focus on their application in geophysics. You'll gain a solid grasp of the physical basis behind vibration measuring instruments and the factors that influence the decay and amplification of vibratory motion.
**🚀 What You'll Learn:**
📚 **Section 1: Fundamentals of Mechanical Vibrations**
- *Basic Concepts:* Get to grips with the core principles of mechanical vibrations.
- *Types of Mechanical Vibration:* Explore different types and how they behave.
- *Modelling Mechanical Systems:* Learn how to model systems for analysis.
- *Equivalent Stiffness & Mass Calculation:* Understand how to calculate the effective stiffness and mass of a system.
- *Deriving Equations of Motion:* Master the process of deriving the equations that govern motion.
- *Determining Natural Frequencies:* Discover how to find the natural frequencies of vibrating systems.
- Solve practical examples of **linear**, **rotational**, and **torsional motions**.
🌬️ **Section 2: Damping in Mechanical Systems**
- *Basic Concepts of Dampers:* Delve into the role of dampers in controlling vibrations.
- *Over-damped, Critical-damped & Under-damped Vibration:* Learn how different types of damping affect system behavior.
🔁 **Section 3 & Beyond: Advanced Mechanical Vibrations**
- *Forced Vibration due to Rotating Unbalance:* Understand the impact of unbalanced rotating masses on systems.
- *Forced Vibration due to Base Excitation:* Discover how base excitations can induce vibrations in systems.
- *Systems with Two or More Degrees of Freedom:* Explore the dynamics of multi-degree-of-freedom systems and their complex behaviors.
**🔍 Key Features:**
- **Real-world Applications:** Learn how to apply vibration theory to geophysics, seismology, and more.
- **Interactive Examples & Case Studies:** Put your knowledge into practice with a variety of examples and real-world case studies.
- **Up-to-Date Content:** Benefit from the latest updates in the field of mechanical vibrations.
- **Expert Instruction:** Learn from an experienced instructor, Mohamed Sayed El-Ashhab, who brings a wealth of knowledge and expertise.
**🎓 Why Take This Course?**
This course is designed to provide you with a thorough understanding of mechanical vibrations, which is crucial for a wide range of engineering disciplines. Whether you're an engineer working in aerospace, civil, mechanical, or any other field that requires an understanding of how systems respond under vibrational forces, this course will equip you with the knowledge and skills to analyze, design, and troubleshoot systems effectively.
**📆 Enroll Now & Secure Your Spot!**
Take the first step towards mastering mechanical vibrations by enrolling in this updated and comprehensive online course today. Elevate your engineering expertise and stay ahead in your field with cutting-edge knowledge delivered by an industry expert. 🎓✨
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5746912
udemy ID
1/5/2024
course created date
2/16/2024
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