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JNTUK R23 B.Tech Mechanical II Year I Semester (2-1) Syllabus & Subject-wise Topics

# Category Subject L-T-P Credits
1 Basic Science Numerical Methods and Transform Techniques 3-0-0 3
2 HSMC Universal Human Values – Understanding Harmony & Ethical Human Conduct 2-1-0 3
3 Engineering Science Thermodynamics 2-0-0 2
4 Professional Core Mechanics of Solids 3-0-0 3
5 Professional Core Material Science and Metallurgy 3-0-0 3
6 Professional Core Mechanics of Solids and Materials Science Lab 0-0-3 1.5
7 Professional Core Computer-Aided Machine Drawing 0-0-3 1.5
8 Engineering Science Python Programming Lab 0-0-2 1.0
9 Skill Enhancement Course Embedded Systems and IoT 0-1-2 2
10 Audit Course Environmental Science 2-0-0

Total: 15-2-10, 20 credits


Numerical Methods and Transform Techniques

builds the applied-maths toolkit mechanical engineers lean on for approximating solutions that don’t have a clean closed form, from root-finding through to signal analysis.

Universal Human Values – Understanding Harmony & Ethical Human Conduct

a values-and-ethics course (AICTE’s UHV-II model) that asks students to examine what a genuinely fulfilling life and a responsible professional practice actually require, beyond technical competence.

Thermodynamics

covers the laws governing energy conversion between heat and work, giving mechanical engineers the vocabulary and property relationships behind every engine, refrigerator, and power cycle they’ll later design.

Mechanics of Solids

the core strength-of-materials course that teaches how loaded components deform and fail, the foundation for every later design and machine-elements subject.

Material Science and Metallurgy

explains why metals and alloys behave the way they do at a microstructural level, so students can later choose and process the right material for a given mechanical application.

Mechanics of Solids and Materials Science Lab

pairs mechanical-testing practice with microstructure observation so theory from the two lecture courses gets verified on real specimens.

Computer-Aided Machine Drawing

moves students from manual drafting conventions into CAD, covering how joints, couplings, and assemblies are represented and toleranced in a professional drawing.

Python Programming Lab

a hands-on introduction to Python meant to give mechanical students a general-purpose scripting and data-handling skill they can apply to engineering computation, not just software electives.

Embedded Systems and IoT

introduces microcontroller interfacing and internet-connected sensing, the building blocks behind smart manufacturing and mechatronic systems covered later in the programme.

Environmental Science

a mandatory audit course covering ecological literacy and environmental law, meant to instil awareness of the sustainability trade-offs engineers create.

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