Engineering Mechanics & Statics and Dynamics
January 31, 2025 7:47 pm Published by : theadminEngineering Mechanics &
Statics and Dynamics
Online Course
Engineering Mechanics & Statics and Dynamics
The Engineering Mechanics: Statics and Dynamics course provides an essential foundation for aspiring engineers, focusing on the fundamental principles that govern the behavior of structures and mechanical systems at rest and in motion. Through this course, students will learn to analyze forces, moments, and the effects of various loads on stationary and moving bodies. Topics include equilibrium, kinematics, kinetics, and energy methods—all critical for solving real-world engineering problems. By mastering these core principles, students will gain a solid understanding of how forces interact within mechanical systems, enabling them to design, predict, and improve the performance of engineering structures.
Engineering Mechanics is the backbone of fields such as civil, mechanical, aerospace, and automotive engineering, where strong foundational knowledge is essential for roles in design, analysis, and testing. Proficiency in statics and dynamics is highly valued, as it enables engineers to develop safe and efficient structures, machines, vehicles, and products. Graduates skilled in these areas can pursue careers as design engineers, structural analysts, mechanical engineers, or R&D specialists. Additionally, the analytical and problem-solving skills gained in this course provide a competitive edge, preparing students for advanced studies or specialized engineering roles in diverse, high-demand industries. This course opens pathways to innovation and career growth in the ever-evolving engineering landscape.

Course Fee
₹ 25,000/-
Qualification
Diploma/B.Tech
Duration
2 Months
Course Type
Certification
Our Recognitions Speaks
Creative Mentors was honored for its excellency in animation education industry

WHAT WE TEACH
Here’s a structured 4-month course curriculum for a Certificate Program in Engineering Mechanics: Statics and Dynamics, organized module-wise to cover essential principles, applications, and practical assignments. This curriculum is designed for aspiring engineers to build a solid foundation in analyzing forces and understanding motion.- Topics Covered:
- Introduction to Engineering Mechanics: Importance, Applications, and Core Concepts
- Units, Dimensions, and Basic Definitions (Force, Mass, Weight)
- Vector Mechanics: Scalars and Vectors, Vector Operations
- Fundamentals of Statics: Equilibrium of Particles
- Free Body Diagrams (FBDs) and Equilibrium Equations
- Assignment: Solve basic equilibrium problems for particles under various force systems and draw free-body diagrams.
- Topics Covered:
- Equilibrium of Rigid Bodies: Moments, Couples, and Resultants of Force Systems
- Conditions of Static Equilibrium and Solving for Unknown Forces
- Analysis of Simple Structures: Trusses, Beams, and Frames
- Center of Gravity, Centroids, and Distributed Forces
- Introduction to Friction: Types, Laws, and Applications in Static Analysis
- Topics Covered:
- Topics Covered:
- Introduction to Dynamics: Difference between Statics and Dynamics
- Kinematics of Particles: Rectilinear and Curvilinear Motion
- Position, Velocity, and Acceleration: Equations of Motion
- Relative Motion and Dependent Motion of Particles
- Projectile Motion and Applications in Engineering
- Topics Covered:
- Topics Covered:
- Kinetics of Particles: Newton’s Laws of Motion, Force-Mass-Acceleration Principle
- Work-Energy Principle and Energy Conservation in Mechanical Systems
- Impulse-Momentum Principle and Applications
- Introduction to Dynamics of Rigid Bodies in Translation and Rotation
- Problem-Solving Techniques: Using Energy and Momentum Methods for Dynamics
- Topics Covered:
- Project Description: Each student will undertake a capstone project to apply the principles learned throughout the course. The project will include:
- Analyzing the forces acting on a simple mechanical or structural system in static equilibrium (e.g., a bridge truss or a crane arm).
- Calculating kinematic and kinetic parameters of a system in motion, such as a projectile or a rotating mechanism.
- Creating a comprehensive report with diagrams, calculations, and interpretations of results.
- Project Description: Each student will undertake a capstone project to apply the principles learned throughout the course. The project will include:
Upon completion, students will have mastered fundamental techniques in statics and dynamics, including vector analysis, equilibrium conditions, motion equations, and energy principles. These skills are essential for further studies in engineering or careers that require proficiency in force and motion analysis.
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