Course Overview:
This course explores the foundational principles of applied mechanics and their practical applications in solving real-world engineering and manufacturing problems. It bridges theoretical mechanics concepts with hands-on practices, enabling participants to confidently transition from understanding theoretical mechanics to applying these concepts in professional projects.
Course Objectives:
• Grasp the theoretical foundations of applied mechanics and their practical applications.
• Gain the ability to analyze mechanical systems and calculate forces, stresses, and deformations.
• Improve skills in designing and evaluating engineering structures using analytical tools.
• Develop practical skills in using software tools for mechanical analysis.
• Enhance competence in applying mechanics concepts to solve real industrial problems.
Course Content:
• Introduction to Applied Mechanics: Study of forces, motion, and equilibrium concepts.
• Force and Stress Analysis: Techniques for calculating stresses and deformations in materials and structures.
• Mechanical System Design and Evaluation: Principles of optimal design to ensure structural efficiency and safety.
• Software-Based Analysis: Hands-on training in using software for mechanical systems analysis.
• Case Studies and Applications: Real-world applications for studying and analyzing industrial systems.
Target Audience:
This course is designed for engineers and technicians in mechanical and industrial engineering fields, as well as engineering students interested in applied mechanics. It is also ideal for engineers looking to enhance their skills in analyzing and designing mechanical systems and applying theoretical mechanics to address engineering challenges in the industrial sector.
