RTU Kota B.Tech 1st Year Basic Mechanical Engineering Sem-II Question Paper 2024
About this Question Paper
Here you can find the official RTU Kota B.Tech 1st Year Basic Mechanical Engineering Sem-II Question Paper 2024 for the RTU Kota B.Tech 1st Year Previous Year Question Papers(Common for All Branches) examinations. Solving previous year question papers is one of the best ways to prepare for your upcoming board exams. It helps you understand the exam pattern, important topics, and marking scheme. Scroll down to find the secure download link for the PDF file.
RTU Basic Mechanical Engineering Sem-II 2024 Paper Review
Preparing for the Rajasthan Technical University B.Tech Basic Mechanical Engineering exam requires a clear understanding of thermodynamic laws and machinery operations. The Sem-II 2024 paper tests your core theoretical knowledge and your ability to draw precise mechanical diagrams. Reviewing this paper shows you exactly how examiners structure the questions and allocate marks among the syllabus modules. This preparation allows you to approach your semester exam confidently.
Understanding the Exam Pattern
The RTU theory examination is a three hour paper worth 70 marks. The paper consists of three distinct sections.
- Part A: This section contains ten compulsory questions worth two marks each. You must write short definitions under 30 words.
- Part B: You will find seven questions here. You must answer five of them. Each question is worth four marks. Your answers should be around 100 words.
- Part C: This section offers five major questions. You need to answer three. Each question carries ten marks. These require detailed mechanical diagrams, thermodynamic derivations, or multi step numerical solutions.
Core Topics Evaluated in the Paper
The Sem-II 2024 question paper covers several critical modules. Focus your study time on these specific areas to maximize your score.
Fundamentals of Thermodynamics
You must know the zeroth, first, and second laws of thermodynamics. Examiners frequently ask for the definition of a thermodynamic system, boundary, and surroundings. Practice numerical problems calculating work done and heat transfer in constant pressure, constant volume, and isothermal processes. You must also understand the concept of entropy along with the Kelvin-Planck and Clausius statements of the second law.
Internal Combustion (IC) Engines
This is a high scoring section. You must explain the working of two stroke and four stroke petrol and diesel engines. The paper consistently asks you to compare SI (Spark Ignition) and CI (Compression Ignition) engines. Practice drawing the indicator diagrams (P-V diagrams) for the Otto cycle and Diesel cycle. Expect a numerical problem asking you to calculate the air standard efficiency of an Otto cycle.
Pumps and Power Transmission
You need to explain the working principles of centrifugal and reciprocating pumps. Draw neat diagrams showing the main components like the impeller, casing, and suction pipe. For power transmission, study the different types of belt drives and gear trains. Practice the derivation for the ratio of belt tensions and calculate the power transmitted by a flat belt drive.
Refrigeration and Air Conditioning
This module tests your knowledge of cooling systems. You must define the Coefficient of Performance (COP) and a ton of refrigeration. Study the vapor compression refrigeration cycle and draw its block diagram and T-S diagram clearly. Examiners also ask about the properties of an ideal refrigerant and the basic components of a window air conditioner.
Manufacturing Processes
Examiners evaluate your basic understanding of workshop technology. You must explain casting, forging, rolling, and extrusion processes. Study the basic operations performed on a lathe machine, such as turning, facing, and threading. Prepare short notes on welding techniques, specifically arc welding and gas welding, including the different types of flames used.
Answer Writing Strategy for High Marks
RTU evaluators look for neat mechanical sketches and clear theoretical points in your answer booklet. Use a blue pen for your main text and a black pen for headings.
In Part A, answer directly. If the question asks for the definition of COP, write the exact formula and define the terms. Do not add unnecessary background information. Keep answers factual and precise.
In Part B, provide a brief explanation accompanied by a small sketch. When asked about the differences between two stroke and four stroke engines, use a comparison table. List four specific differences to make your answer easy to scan.
In Part C, detail is essential. When explaining a complex mechanism like a centrifugal pump or the vapor compression cycle, break your answer into clear headings: Principle, Construction, Working, and Advantages. Draw a large, well proportioned diagram using a pencil and label every component. The university marking system heavily rewards clear schematic diagrams in mechanical engineering papers. Write out every single step in your thermodynamic numerical calculations.
Time Management During the Exam
Allocate 20 minutes to Part A. Spend 40 minutes on Part B. Reserve the remaining 120 minutes for the three long answer questions in Part C. Drawing detailed machine components and P-V diagrams takes significant time. This structure gives you 40 minutes per major question, allowing you to complete your sketches and double check your numerical formulas. Use the final 10 minutes to verify your answers, check units like Joules or Watts, and ensure all parts of your mechanical diagrams are accurately labeled.