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JNTUK R23 B.Tech Mechanical III Year II Semester (3-2) Syllabus & Subject-wise Topics

# Category Subject L-T-P Credits
1 Professional Core Heat Transfer 3-0-0 3
2 Professional Core Artificial Intelligence and Machine Learning 3-0-0 3
3 Professional Core Finite Element Methods 3-0-0 3
4 Professional Elective Professional Elective-II (choice of 4, see below) 3-0-0 3
5 Professional Elective Professional Elective-III (choice of 4, see below) 3-0-0 3
6 Open Elective-II Open Elective-II (choice of 5, see below) 3-0-0 3
7 Professional Core Heat Transfer Lab 0-0-3 1.5
8 Professional Core Artificial Intelligence and Machine Learning Lab 0-0-3 1.5
9 Skill Enhancement Course Robotics and Drone Technologies Lab 0-0-4 2
10 Audit Course Technical Paper Writing and IPR 2-0-0

Total: 20-0-10, 23 credits.

Also mandatory: an Industry Internship of 8 weeks during the summer vacation — the PDF records only the 2-0-0 credit line for this with no unit-wise syllabus. Also offered as optional add-ons: a Minor Course from the specialization pool (3-0-3, 4.5 credits), a further Minor Course (3-0-0, 3 credits), and two Honors Courses (3-0-0, 3 credits each) — again drawn from a separate elective pool rather than one fixed syllabus.

Professional Elective-II options:

Mechanical Vibrations · Advanced Manufacturing Processes · Micro Electro Mechanical Systems · Sensors and Instrumentation

Professional Elective-III options:

Energy Storage Technologies · Industrial Hydraulics and Pneumatics · Industrial Robotics · Refrigeration & Air-Conditioning

Open Elective-II options:

Introduction to Industrial Robotics · Industrial Management · Additive Manufacturing · Vehicle Technology · Industrial Safety


Heat Transfer

teaches how thermal energy moves by conduction, convection, and radiation, giving mechanical engineers the analytical basis for designing everything from engine cooling to heat exchangers.

Artificial Intelligence and Machine Learning

introduces AI/ML concepts to mechanical engineers, reflecting how data-driven methods now feed into predictive maintenance, design optimization, and smart manufacturing.

Finite Element Methods

teaches the numerical technique behind virtually all modern structural, thermal, and vibration simulation software used in mechanical design.

Mechanical Vibrations

(Professional Elective-II) — extends vibration theory from Theory of Machines into multi-degree-of-freedom systems and measurement instrumentation used to diagnose real machinery.

Advanced Manufacturing Processes

(Professional Elective-II) — covers non-traditional machining and micro/nanoscale fabrication routes that go beyond the conventional processes taught earlier in the programme.

Micro Electro Mechanical Systems

(Professional Elective-II) — introduces MEMS design and fabrication, the miniaturized sensor/actuator technology increasingly embedded in mechanical and mechatronic products.

Sensors and Instrumentation

(Professional Elective-II) — covers the sensing and data-acquisition technology that underlies measurement, automation, and mechatronic control systems.

Energy Storage Technologies

(Professional Elective-III) — covers the battery and storage systems central to the electric-vehicle and renewable-energy transition, an increasingly important area for mechanical engineers.

Industrial Hydraulics and Pneumatics

(Professional Elective-III) — covers fluid-power systems used to actuate industrial machinery, complementing the fluid mechanics taught earlier with practical circuit design.

Industrial Robotics

(Professional Elective-III) — covers the kinematics, actuation, and programming of industrial robot arms, a core automation technology in modern manufacturing.

Refrigeration & Air-Conditioning

(Professional Elective-III) — extends thermodynamics into cooling-system design, covering the refrigeration cycles and psychrometric calculations behind HVAC and cold-chain equipment.

Introduction to Industrial Robotics

(Open Elective-II) — the same robot kinematics, actuation, and machine-vision syllabus as the Professional Elective-III “Industrial Robotics” course, offered here as an open elective for students from other specializations.

Industrial Management

(Open Elective-II) — the same industrial-engineering and management syllabus taught as a management course in II Year II Semester, offered here as an open elective.

Additive Manufacturing

(Open Elective-II) — covers 3D-printing/rapid-prototyping technology in depth, from the underlying processes to tooling and data formats used in industry.

Vehicle Technology

(Open Elective-II) — the same advanced-engine, combustion, and electrification syllabus as the Professional Elective-I “Conventional and Futuristic Vehicle Technology” course, offered here as an open elective.

Industrial Safety

(Open Elective-II) — covers workplace safety management and fire protection, essential compliance knowledge for engineers who will work in or manage industrial plants.

Heat Transfer Lab

verifies conduction, convection, and radiation theory experimentally across a range of standard heat-transfer test rigs.

Artificial Intelligence and Machine Learning Lab

gives students coding practice implementing the ML models covered in the lecture course using Python’s data-science stack.

Robotics and Drone Technologies Lab

hands-on robot and drone building that complements the Industrial Robotics and vehicle-technology theory with maker-style prototyping.

Technical Paper Writing and IPR

a mandatory audit course teaching academic writing conventions alongside intellectual-property fundamentals students need before filing a patent or publishing research.

Industry Internship

(mandatory, 8 weeks, summer) — the PDF records only the 2-0-0 credit line for this mandatory internship in III Year II Semester; there is no unit-wise syllabus, since the content is on-the-job training defined by the host organization rather than classroom topics.

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