Course Description

Engineering project and risk management, feasibility analysis. Preparing project proposals. Interdiciplinary teamwork. Examples of social, environmental, ethical, legal aspects of engineering solutions for contemporary real life problems. Examples of entrepreneurship and innovation practices. Widely used engineering standards.

History of occupational health and safety. Work law. Occupational health and safety law. National and international conventions. Occupational diseases. Introduction to the concept of hazard and risk

Design and development of a software engineering product for a complex real world system under the supervision of an academic advisor; submission of the results in the form of a project report and oral presentation.

Area Elective-IV

Area Elective-V

General Elective-III

General Elective-IV

Hazard and risk concept. Chemical risk factors. Physical risk factors. Biological risk factors. Psychological risk factors. Ergonomic risk factors. Risk analysis and types. Industrial applications

Resources and scarcity; supply and demand; the mixed economy; market structure; national income, business cycles, unemployment and inflation; economic growth and productivity; money, banking and monetary policy; international trade and finance

Physical quantities and units. Scalars and vectors. Motion along a straight-line. Motion in two and three dimensions. Newton’s laws of motion. Applications of Newton’s laws. Frictional forces. Circular motion. Work and kinetic energy. Conservative and non-conservative forces. Potential energy and energy conservation. Momentum and momentum conservation. Collisions. Kinematics and dynamics of rotational motion. Torque. Angular momentum and conservation of angular momentum. Gravitation. Oscillations. Simple Harmonic Motion.