Engineering Mechanics Practice

Engineering Mechanics Practice is an educational application designed to help students understand and practice fundamental concepts of engineering mechanics. The app focuses on practice-based learning through chapter-wise quizzes, mock tests, and daily quizzes aligned with standard engineering mechanics curricula.

Users can practice problems from individual topics, attempt mock tests for overall assessment, and monitor their performance using statistics. The app supports self-study, classroom learning, and exam preparation for engineering students.

Topics Included
1. Basic Concepts and Principles

Engineering mechanics fundamentals, idealization, scalar and vector quantities, Newton’s laws, units and dimensions, and free body diagrams.

2. System of Forces

Force definition, types of forces, coplanar and concurrent forces, resultant force, and resolution of forces.

3. Equilibrium of Particles

Conditions of equilibrium, force balance, free body diagrams, two-force and three-force equilibrium, and applications.

4. Equilibrium of Rigid Bodies

Rigid body concept, moment of force, Varignon’s theorem, couples, equilibrium conditions, and support reactions.

5. Friction

Friction force, static and kinetic friction, limiting friction, coefficient of friction, and engineering applications.

6. Properties of Surfaces

Centroid, center of gravity, area moments, moment of inertia, parallel axis theorem, and perpendicular axis theorem.

7. Kinematics of Particles

Rectilinear and curvilinear motion, displacement, velocity, acceleration, equations of motion, relative motion, and projectile motion.

8. Kinetics of Particles

Newton’s second law, D’Alembert’s principle, work-energy principle, impulse-momentum principle, conservation of momentum, and applications.

9. Kinematics of Rigid Bodies

Translation, rotation, general plane motion, angular velocity, angular acceleration, and relative velocity method.

10. Kinetics of Rigid Bodies

Force-mass acceleration method, moment equations, work-energy method, impulse-momentum method, rolling motion, and applications.

11. Mechanical Vibrations (Introductory)

Vibration concepts, simple harmonic motion, time period, frequency, damping, and engineering applications.

12. Engineering Applications and Problem Solving

Structural analysis, machine elements, statics and dynamics applications, modeling assumptions, and problem-solving strategies.

Key Features

Chapter-wise practice quizzes

Mock tests for comprehensive assessment

Daily quiz for regular practice

Performance statistics to track progress

Content aligned with engineering mechanics syllabus

Engineering Mechanics Practice is suitable for undergraduate engineering students preparing for examinations and strengthening conceptual understanding through regular practice.