Paavendhar Polytechnic College likely offers courses in basic engineering subjects as part of its curriculum. Basic engineering typically covers fundamental concepts in various engineering disciplines such as mechanical, civil, electrical, and electronics engineering. These subjects often include mathematics, physics, engineering drawing, computer programming, and introductory courses in specific engineering disciplines.
Students studying basic engineering at Paavendhar Polytechnic College would likely receive a comprehensive foundation in these core subjects, preparing them for more specialized studies in their chosen engineering field. The curriculum may also incorporate practical hands-on experience through laboratory work, projects, and industrial visits to provide students with a well-rounded education in engineering fundamentals.
S.NO | NAME | QUALIFICATION | DESIGNATION |
---|---|---|---|
1 | K.ELAVARASAN | M.Sc, B.Ed | HOD -FIRST YEAR (PHYSICS) |
2 | M.PRAKASH | M.A, B.Ed | LECTURER /ENGLISH |
3 | B.SARANRAJ | M.Sc, B.Ed | LECTURER / MATHS |
4 | G.PRABURAJ | M.Sc, B.Ed | LECTURER / MATHS |
5 | C.SARAVANAN | M.Sc , B.Ed | LECTURER / PHYSICS |
6 | M.ISWARYA | M.Sc, B.Ed | LECTURER / CHEMISTRY |
7 | T.VEERAMANI | M.A, B.Ed | LECTURER / TAMIL |
A Diploma in Basic Engineering typically covers foundational knowledge and skills across various engineering disciplines. Here’s an overview of what such a diploma program might entail, along with potential career opportunities:
Fundamental mathematical concepts and techniques relevant to engineering applications.
Basic principles of physics applied in engineering contexts, including mechanics, thermodynamics, and optics.
Introduction to chemical principles and their applications in engineering materials and processes.
Study of forces, motion, and the behavior of materials under different conditions.
Basics of electrical circuits, components, and electronic devices.
Properties and applications of engineering materials such as metals, polymers, ceramics, and composites.
Introduction to programming languages, algorithms, and software applications relevant to engineering.
Basics of mechanical systems, including machine components, mechanisms, and manufacturing processes.
Introduction to structural engineering principles, construction materials, and surveying techniques.
Laboratory work in a Diploma in Basic Engineering program typically includes practical sessions to reinforce theoretical concepts. Examples include:
Assisting engineers in designing, testing, and maintaining various engineering systems and components.
Using computer-aided design software to create technical drawings and models for engineering projects.
Ensuring products meet quality standards through inspections and testing.
Providing assistance to customers or colleagues regarding technical issues with engineering products or systems.
Operating machinery and equipment in manufacturing environments, ensuring efficient production processes.
Performing routine maintenance and troubleshooting of machinery and equipment in industrial settings.
Installing, repairing, and maintaining engineering equipment at customer sites.
8. Supporting research projects in engineering labs or academic institutions.
Providing technical expertise to customers and assisting in the sales process of engineering products.
Graduates can pursue higher studies such as Bachelor’s degrees in specific engineering disciplines (Mechanical, Electrical, Civil, etc.) to specialize further and enhance career prospects in their chosen field.