Strength of Materials- Part-II

Why take this course?
Master the Fundamentals of Strength of Materials with Expert Dr. Samanwita Bagg! π
Course Title: Strength of Materials- Part-II
Course Description:
Dive into the world of Strength of Materials- Part-II where you'll unlock the secrets behind Centre of Gravity (C.G.) & Moment of Inertia (M.I.), Strain Energy, Deflection of Beams, and Theory of Torsion. This comprehensive course is designed to build on your existing knowledge of basic mathematics and solid mechanics, taking you from novice to proficient in applying these concepts to real-world engineering problems.
Why Take This Course?
- Expert Instructor: Learn from Dr. Samanwita Bagg, a renowned instructor with years of experience in teaching Strength of Materials.
- Real-World Applications: Understand how the concepts you learn are applied in various engineering disciplines.
- Numerical Solutions: Grasp complex numerical problems with detailed explanations and step-by-step solutions.
- Interactive Learning: Engage with the material through a mix of lectures, examples, and quizzes to solidify your understanding.
Course Structure Overview:
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Centre of Gravity (C.G.) & Moment of Inertia (M.I.): Get to grips with the fundamental principles, including centroid, radius of gyration, moment of inertia, and more. We'll solve a variety of numericals to illustrate these concepts clearly.
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Strain Energy: Explore the three key cases involving gradually applied load, suddenly applied load, and impact, and understand how strain energy behaves under these conditions, especially in composite and compound bars.
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Deflection of Beams: Derive the flexural formula and learn Macaulay's method, then apply these tools to solve for slope and deflection under a range of loading conditions with practical numerical examples.
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Theory of Torsion: Understand the principles governing torsion, derive the torsional formula, and analyze shaft designs for safety and efficiency, including an examination of statically indeterminate shafts.
Key Topics Covered:
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Centre of Gravity (C.G.) & Moment of Inertia (M.I.)
- Centroid
- Radius of gyration
- Moment of inertia
- Polar modulus, section modulus
- Mass moment of inertia
- Area moment of inertia
- Perpendicular axis theorem
- Parallel axis theorem
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Strain Energy
- Gradually applied load
- Suddenly applied load
- Sudden impact
- Strain energy in composite and compound bars
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Deflection of Beams
- Flexural formula derivation
- Macaulay's method
- Slope and deflection calculations for various loading conditions
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Theory of Torsion
- Torsional formula
- Shaft design analysis
- Statically indeterminate shafts
Who Is This Course For?
- Engineering students
- Civil engineers
- Mechanical engineers
- Anyone interested in the principles of Strength of Materials and its applications in real-life engineering problems.
Enroll now to transform your understanding of Strength of Materials and enhance your problem-solving skills with this essential subject matter! π
Join Us and Elevate Your Engineering Knowledge! π οΈπβ¨
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