Introduction to Applied Chemistry (312308)

Applied Chemistry (Course Code: 312308) under the MSBTE K Scheme equips 2nd Semester Electrical Engineering students with foundational knowledge of chemical principles relevant to electrical systems, materials, and sustainability. This blog decodes the syllabus, key experiments, and actionable strategies to help you excel in exams and rank for search queries like “MSBTE 312308 syllabus” or “Applied Chemistry for Electrical Engineers.”

Why is Applied Chemistry Important for Electrical Engineers?

Chemistry underpins critical areas like battery technology, corrosion prevention, and material science—essential for designing circuits, transformers, and renewable energy systems. This course bridges chemical principles with applications in electrical engineering, preparing students for roles in manufacturing, quality control, and R&D.

MSBTE K Scheme Syllabus Breakdown

Course Code: 312308
Credits: 4 (3 Theory + 1 Practical)

Unit 1: Basics of Chemistry

• Atomic Structure, Periodic Table, and Chemical Bonding

• States of Matter and Thermodynamics

• Acids, Bases, and pH Concepts

Unit 2: Electrochemistry

• Electrolysis and Faraday’s Laws

• Galvanic and Electrolytic Cells

• Applications in Batteries and Fuel Cells

Unit 3: Corrosion and its Prevention

• Types of Corrosion (Galvanic, Pitting, Stress)

• Factors Influencing Corrosion

• Protective Methods (Cathodic Protection, Coatings)

Unit 4: Engineering Materials

• Conductors, Semiconductors, and Insulators

• Polymers and Composites in Electrical Applications

• Nanomaterials and Their Uses

Unit 5: Environmental Chemistry

• Air and Water Pollution

• Green Chemistry and Sustainable Practices

• Waste Management in Electrical Industries

Exam & Marks Distribution

• Theory (70 Marks):

  • Unit 1–5: 14 marks each

• Practical (30 Marks):

  • Lab Experiments (e.g., pH Measurement, Corrosion Tests)

  • Journal, Viva, and Report Submission

Top 5 Study Tips for Applied Chemistry

1. Focus on Electrochemistry: Master Faraday’s Laws and battery reactions—key for theory and lab work.

2. Practice Numerical Problems: Calculate molarity, pH, and corrosion rates.

3. Use Recommended Books:

   • Engineering Chemistry by O.G. Palanna

   • Applied Chemistry by Jain and Jain

4. Revise Lab Procedures: Understand experiments like titration and conductivity tests.

5. Link Concepts to Real-World Applications: Relate corrosion prevention to electrical equipment longevity.

Career Opportunities

• Battery Technologist: ₹3–8 LPA (India)

• Quality Control Engineer: ₹3–7 LPA

• Environmental Compliance Officer: ₹4–9 LPA
  Skills from this course are vital for roles in firms like Exide, Tata Power, and renewable energy sectors.

FAQs: MSBTE Applied Chemistry (312308)

Q1. What’s the passing criteria?
A: Minimum 28/70 in theory and 12/30 in practicals.

Q2. Which unit is most challenging?
A: Unit 2 (Electrochemistry) and Unit 3 (Corrosion) often require detailed numerical practice.

Q3. Are lab experiments part of the syllabus?
A: Yes! Practicals include experiments on pH, conductivity, and corrosion tests.

Q4. Best book for quick revision?
A: Engineering Chemistry by O.G. Palanna simplifies complex topics.