Course Overview

Calculus and Linear Algebra is a fundamental course designed to provide students with a comprehensive understanding of essential mathematical concepts that underpin various fields of science, engineering, economics, and technology. The course seamlessly integrates the principles of calculus and linear algebra, equipping students with a strong mathematical foundation crucial for advanced studies and problem-solving in Mechanical Engineering courses.

Course Outcomes

• Recall and reproduce fundamental principles of calculus and linear algebra including limits, derivatives, integrals, and matrix operations
• Comprehend the underlying concepts of calculus and linear algebra, explaining the relationship between mathematical operations and real-world phenomena.
• Apply calculus and linear algebra techniques to solve mathematical problems in various contexts, demonstrating the ability to select appropriate methods for different types of problems.
• Break down complex problems into smaller components, identifying patterns and relationships within mathematical structures, and then solve them using calculus and linear algebra principles.
• Critically assess mathematical solutions, recognizing limitations and proposing improvements. Evaluate the applicability of calculus and linear algebra in solving practical problems in different fields.

Course Overview

This course introduces the fundamentals of mathematics. It also introduces problems based on logic and reasoning and builds the foundation for development of basic programming skills.

Course Outcomes

• Demonstrate the ability to understand the concepts of mathematics, logic, reasoning and coding
• Apply of applications of concepts in other disciplines such as engineering, computer science, physics, etc.
• Solve and devise solutions to a range of elementary real-world problems in mathematics and programming
• Explore and apply key concepts in logical thinking to business problems.
• Enable students to critically analyze information in order to evaluate evidence and construct reasoned arguments.

Course Overview

The course of Engineering Physics for Civil and Mechanical Engineers would give insight to understand the physics and its applications in day to day life. However to apply the basic principles wherever applicable.

Course Outcomes

• Understand the importance of mechanics
• Understand the importance of quantum physics
• Apply quantum ideas at the nanoscale
• Understand the materials characterization and instrumentation.

Course Overview

The course of Workshop Practices for Mechanical Engineers would facilitate the development of basic skills an engineer is expected to posses to supervise construction activities like brick masonry, woodwork, concerting, welding, finishing etc. including quality control and maintenances of safety to self, coworkers and the constructed components of the building.

Course Outcomes

• Identify and select appropriate materials and tools required for Carpentry, wielding and drilling work.
• Observe the technical aspects involved in workmanship of various plumbing tasks along with their safety measures
• Provide and fix the false ceiling , aluminum –glass works 5b
• Carry out whitewashing and painting

Course Overview

The Extra-Curricular Activity course is designed to provide students with opportunities to explore their interests, develop new skills, and engage in activities beyond the traditional academic curriculum. This course encourages students to participate in a wide range of extracurricular activities such as sports, arts, debate, community service, and leadership programs. Through these activities, students will enhance their teamwork, leadership, communication, and time management skills, fostering personal growth, social interaction.

Course Outcomes

• Participants will develop personal skills, such as leadership, communication, time management, and teamwork, contributing to their overall character development and self-confidence.
• Engagement in community service and outreach activities will cultivate a sense of social responsibility, empathy, and civic awareness, encouraging students to actively contribute to society.
• Students will have the opportunity to explore diverse interests and talents, nurturing passions that go beyond academics. They will develop expertise and proficiency in chosen activities, building a well-rounded skill set.

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Course Overview

The objective of this course is to familiarize the students with First order ordinary differential equations, Ordinary differential equations of higher orders, Basic probability and Basic and applied Statistics. It aims to present the students with standard concepts and tools at B.Tech first year to superior level that will provide them well towards undertaking a variety of problems in the concern discipline.

Course Outcomes

• To make understand to solve first and second order ordinary differential equation.
• To make understand to solve higher order differential equation.
• To provide the application on differential calculus.
• To provide an overview of probability to engineers.
• To provide an overview of statistics to engineers.

Course Overview

Integration of Basic Science Courses builds the foundation of engineering problems. The application of Chemistry in different Engineering areas plays an important role. The subject encompasses various theories of chemical science which are triggering in the field of energy science, metallurgy, material science and engineering, corrosion behaviour of materials, power storing devices, fuel cell and combustion etc. The subject contents are designed keeping in view of the practical applications in the development of the society.

Course Outcomes

• 1. Evaluate the causes of metallic corrosion and apply the methods for corrosion protection of metals.
• 2. Analyze the properties of different polymers and distinguish the polymers which can be degraded and demonstrate their usefulness.
• 3. Evaluate the electrochemical energy storage systems such as lithium batteries, fuel cells and solar cells, and design for usage in electrical and electronic applications.
• 4. Assess the quality of different fossil fuels and create an awareness to develop the alternative fuels.
• 5. Recall and analyze the issues related to impurities in water and their removal methods and apply recent methodologies in water treatment for domestic and industrial usage.

Course Overview

Environmental Science is a multidisciplinary exploration of the intricate relationships between humanity and the natural world. This course provides students with a comprehensive overview of fundamental ecological principles, environmental chemistry, biodiversity conservation, and the impacts of human activities on the environment. Through a blend of theoretical knowledge and practical applications, students delve into the complexities of pollution, resource management, and sustainable development. The course emphasizes the interconnectedness of ecological systems, aiming to cultivate an understanding of the delicate balance required for environmental harmony. By studying environmental chemistry, biodiversity, and pollution, students develop the skills needed to critically analyze and propose solutions to contemporary environmental challenges

Course Outcomes

• To examine the impact of human activities on the environment, including pollution, deforestation, habitat destruction, and climate change. Understand the scientific principles underlying these environmental issues and their broader implications.
• To acquire proficiency in applying scientific methods to assess and address environmental problems. Develop skills in data collection, analysis, and interpretation to make informed decisions related to environmental conservation and management.
• To investigate principles of sustainability and explore strategies for sustainable resource management. Analyze the social, economic, and ecological dimensions of sustainable practices and identify ways to promote responsible environmental stewardship.
• To foster environmental literacy and awareness among students. Encourage critical thinking about environmental issues and empower students to communicate effectively about environmental challenges.

Course Overview

This course is introduced to provide a basic understanding of the fundamentals of Engineering Drawing, mainly visualization, graphics theory, standards and conventions of drawing, the tools of drawing, and the use of Drawings in engineering applications.

Course Outcomes

• Learn to understand the conventions and methods of engineering drawing.
• Interpret engineering drawings using fundamental technical mathematics.
• Construct basic and intermediate geometry.
• Improve their visualization skills so that they can apply these skills in developing new products.
• Comprehend the theory of projection.

Course Overview

The course "Problem Solving using Python" aims to provide students with a basic foundation in Python programming and problem-solving skills. Students will learn to write efficient, structured, and modular code to solve a few basic real-world computational problems.

Course Outcomes

• Understand about the history of Programming Languages, Types of programming languages, Basic Syntax of a few programming languages.
• Understand the fundamentals of Python programming language and its syntax, enabling them to write basic to intermediate level programs
• Demonstrate proficiency in using data types and conditional statements to make simple Python programs and manipulate data effectively.
• Understand about Loops, functions and various packages in Python

Course Overview

This extracurricular course offers students an opportunity to delve into the fascinating world of emerging technologies and their societal impact. Participants will explore cutting-edge advancements in various fields, from artificial intelligence to biotechnology, and engage in thought-provoking discussions on the ethical, social, and economic implications of these technologies. The course aims to inspire curiosity, critical thinking, and informed perspectives on the role of innovation in shaping our future.

Course Outcomes

• Develop a comprehensive understanding of various emerging technologies, including their underlying principles, applications, and potential impact on society.
• Cultivate critical thinking skills to analyze the ethical, social, and economic implications of emerging technologies, enabling informed perspectives and discussions.
• Gain a heightened awareness of ethical considerations associated with innovative technologies and develop the ability to make ethically sound decisions in a rapidly changing technological landscape.
• Assess the societal impact of emerging technologies, exploring how they shape cultural norms, influence interpersonal relationships, and contribute to broader social changes.
• Acquire insights into the entrepreneurial opportunities and challenges within the tech landscape, fostering an entrepreneurial mindset and an understanding of innovation in a startup context.

Course Overview

There is an increasing attention to ethics in engineering practice. Engineers are supposed not only to carry out their work competently and skilfully, but also to be aware of the broader ethical and social implications of engineering and to be able to reflect on these. According to the Engineering Criteria 2000 of the Accreditation Board for Engineering and Technology (ABET) in the US, engineers must have “an understanding of professional and ethical responsibility” and should "understand the impact of engineering solutions in a global and societal context.”

Course Outcomes

• 1. Learn new concepts from industry experts
• 2. Gain a foundational understanding of a subject or a tool
• 3. Develop job-relevant skills with hands-on projects
• 4. Earn a shareable career certificate

Course Overview

The study of the course of Bioengineering is based on the usage of biological advancements in the field of engineering to create products that can benefit both fields as well as mankind. It deals with several aspects of energy, biomaterials as well as the environment and helps integrate them into engineered technology.

Course Outcomes

• Learn biological sciences, their scope, and perspectives.
• Acquire knowledge regarding the ecological energetics, its working mechanism, identification of organisms.
• Learn to analyze the mechanism of transfer of character from parent to next generation.
• Learn biological sciences, their scope, and perspectives.
• Acquire knowledge regarding the ecological energetics, its working mechanism, identification of organisms.

Course Overview

This course provides an introduction to the most powerful engineering principles. Thermodynamics is science of transferring energy from one place to another. It introduce the tools one needs to analyze energy systems from solar panels, to engines, to insulated coffee mugs. More specifically, it will cover the topics of mass and energy conservation principles; first law analysis of control mass and control volume systems; properties and behavior of pure substances; and applications to thermodynamic systems operating at steady state conditions.

Course Outcomes

• Learn to apply energy balance to systems and control volumes
• Learn to compute the changes in thermodynamic properties of substances
• Learn to classify the performance of energy conversion devices
• Learn to differentiate between high grade and low grade energies
• Learn to associate work and heat interactions, and the balance of energy between the system and its surroundings
• Learn to apply energy balance to systems and control volumes
• Learn to compute the changes in thermodynamic properties of substances
• Learn to classify the performance of energy conversion devices
• Learn to differentiate between high grade and low grade energies
• Learn to associate work and heat interactions, and the balance of energy between the system and its surroundings

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Course Outcomes

Course Overview

The objective of this Course is to provide an introductory treatment of Engineering Mechanics to all the students of engineering, with a view to prepare a good foundation for taking up advanced courses in the area in the subsequent semesters. A working knowledge of statics with emphasis on force equilibrium and free body diagrams. Provides an understanding of the kinds of stress and deformation and how to determine them in a wide range of simple, practical structural problems, and an understanding of the mechanical behavior of materials under various load .This course teaches students how to apply Newtonian physics to relatively simple real life applications. This course covers statics, dynamics and elementary part of strength of materials conditions.

Course Outcomes

• Learn the concept of forces and application of different static equilibrium equations
• Learn the concept of friction and its uses and applications
• Learn to apply the concept of centroid & centre of gravity to determine moment of inertia
• Learn to analyze the different rigid bodies in translational and rotational in consideration with and without forces
• Learn the concepts of engineering systems with the help of mechanics and analyze it to solve engineering problems

Course Overview

This course will help the students to learn about the different engineering graphical view in 2D as well as 3D. Different types of machining processes used in the industry can be learnt through this course.

Course Outcomes

• Illustrate various projected views of objects of engineering graphics and design.
• Demonstrate various machining processes in workshop.
• Learn real time applications of logic and coding
• Encourage the students towards Non-traditional thinking
• Effectively communicate scientific and technical knowledge in a professional manner

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Course Outcomes

Course Overview

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Course Overview

This course will help understand students the correlation between the internal structure of materials, their mechanical properties, and various methods to quantify their mechanical integrity and failure criteria. Provide a detailed interpretation of equilibrium phase diagrams. Learning about different phases and heat treatment methods to tailor the properties of Fe-C alloys. Materials scientists and engineers continue to be at the forefront of all of these and many other areas of science, too. Materials science and engineering influence our lives each time we buy or use a new device, machine, or structure. The definition of the academic field of Materials Science & Engineering stems from a realization concerning every application of materials: it is the properties of the material that give it value. A material may be chosen for its strength, electrical properties, resistance to heat or corrosion, or a host of other reasons; but they all relate to properties.

Course Outcomes

• Learn to identify the crystal structures of different materials and understand the defects in such structures.
• Learn the different mechanical property measurement methods and evaluate their performances.
• Learn how to tailor the material properties of ferrous and non-ferrous alloys.
• Learn to identify and understand different heat treatment processes and determine their specific application in different manufacturing processes.
• Learn to evaluate the performance of alloying steels in manufacturing applications.

Course Overview

The student will be made aware of our environment in general, Natural Resources, Ecosystems and the importance of Social issues related to environment and Human Population.

Course Outcomes

• Students will acquire knowledge about different resources and the Impact of depletion of resources.
• Correlating the relationship between Human Population and the Environment.
• Elaboration on food chains, food webs and ecological pyramids.
• Students will be able to illustrate on Biodiversity and its conservation
• Brief outline on Disaster management.

Course Overview

This course offers basic knowledge of fluid statics, dynamics, and hydraulic machines. The objective of this course is to enable the student to understand the laws of fluid mechanics and evaluate pressure, velocity, and acceleration fields for various fluid flows and performance parameters for hydraulic machinery. A substance that flows is called a fluid. All liquid and gaseous substances are considered to be fluids. Water, oil, and others are very important in our day-to-day life as they are used for various applications. For instance, water is used for generation. of electricity in hydroelectric power plants and thermal power plants, water is also used.

Course Outcomes

• Learn to discover the importance of various fluid properties at rest and in transit.
• Learn to outline the students to classify the importance of dimensional analysis.
• Learn to point out to choose the velocity and pressure variations in various types of simple flows.
• Learn to relate the students to analyze the flow in water pumps and turbines.
• Learn to utilize mathematically to analyze fluid dynamic properties.

Course Overview

Strength of Materials is a fundamental engineering course that focuses on the behavior of materials under various loading conditions. This course provides students with a comprehensive understanding of the principles governing the deformation and failure of structural elements. Through a combination of theoretical concepts and practical applications, students will develop the necessary skills to analyze and design structures that can withstand different types of loads.

Course Outcomes

• Analyze and calculate different types of stresses and strains, including axial, torsional, bending, and shear stresses.
• Determine material properties such as elasticity, plasticity, and creep, and their effects on the behavior of materials under various loading conditions.
• Analyze and calculate the deformation and stability of structural elements, such as beams, columns, and shafts.
• Choose appropriate materials for specific engineering applications based on their mechanical properties, durability, and cost.
• Identify and analyze the different failure criteria of materials and their effects on the performance and safety of structures.

Course Overview

This course is designed for the I V semester students of Mechanical Engineering. This course is intended to develop an understanding of Measurement systems and performance models and its analysis at Instrumentation system elements, Signal processing and conditioning; correction elements. The course also indulges Control systems, and different types of Control method.

Course Outcomes

• The uses of Measurement systems and performance
• To generalization of the Instrumentation system elements
• Analysis of the Signal processing and conditioning; correction elements
• Outlining the Control systems
• To learn the other Controlling methods

Course Overview

It is to develop the social and soft skills and to promote a holistic development of the learners

Course Outcomes

• The students will be engaged in different activities headed under different clubs namely dance, music, photography, drama, literacy, etc
• The students will participate in regular club activities like workshops, competitions as per their interest and hobbies.
• The students will be trained to represent ADTU in various inter university, state and national level competitions
• The students will get an overall personal development of their career
• The students will get an exposure of 360 degree learning methodology considering the overall growth along with the academics

Course Overview

It is to develop the social and soft skills and to promote a holistic development of the learners

Course Outcomes

• The students will be engaged in different activities headed under different clubs namely dance, music, photography, drama, literacy, etc
• The students will participate in regular club activities like workshops, competitions as per their interest and hobbies.
• The students will be trained to represent ADTU in various inter university, state and national level competitions
• The students will be given a platform to earn from invited experts in their respective fields
• The students will get an exposure of 360 degree learning methodology considering the overall growth along with the academics.

Course Overview

This course basically includes JavaScript language, and how it supports the Object-Oriented pattern, with a focus on the unique aspect of how JavaScript approaches OO. Also explore a brief introduction to the jQuery library, which is widely used to do in-browser manipulation of the Document Object Model (DOM) and event handling. Learner will also learn more about JavaScript Object Notation (JSON)

Course Outcomes

• knowledge about JavaScript Object Notation (JSON).
• Explore to the Query library
• Enhance the concept of JavaScript language, and how it supports the Object-Oriented pattern
• scientific temper and scientific thinking
• understanding about the nature of scientific knowledge i.e., testable, unified, parsimonious, amoral, developmental and creative.
• knowledge about JavaScript Object Notation (JSON).
• Explore to the Query library
• Enhance the concept of JavaScript language, and how it supports the Object-Oriented pattern
• scientific temper and scientific thinking
• understanding about the nature of scientific knowledge i.e., testable, unified, parsimonious, amoral, developmental and creative.

Course Overview

Programming Fundamentals with Example Projects starts from the very beginning by teaching you C programming basics and then going into advanced topics and different career fields in C programming so you can get real life practice and be ready for the real world

Course Outcomes

• Compute algorithmic solutions to problems
• Design and code a medium application
• Justify, understand and modify code written by others
• Possess strong fundamental concepts in Information Technology to address technological challenges
• Possess knowledge and skills in the field of Information Technology for analyzing, designing and implementing complex engineering problems of any domain with innovative approaches.

Course Overview

This course provides theoretical and thermodynamic background for steam and gas power cycle, refrigeration cycle, psychometric principles, internal combustion engine and gas turbine engine cycles, aircraft and rocket propulsion cycles.

Course Outcomes

• Learn to apply energy balance to systems and control volumes
• Learn to compute the changes in thermodynamic properties of substances
• Learn to classify the performance of energy conversion devices
• Learn to differentiate between high grade and low grade energies
• Learn to associate work and heat interactions, and the balance of energy between the system and its surroundings

Course Overview

The course provides the concepts of different methods of heat transfer. The governing laws of heat transfer are explored and rates of heat transfer for various systems are analyzed. Principal concepts of heat transfer are applied in numerical solving related to real-world applications.

Course Outcomes

• Learn the basic modes of heat transfer.
• Learn to analyze the conduction heat transfer for steady and unsteady flows.
• Learn to summarize the correlations for forced and free convection.
• Learn to explain the interaction of radiations with materials.
• Learn to solve mathematical problems by applying gained theoretical knowledge.

Course Overview

The course is vital for application of engineering problems in to reality. It has the major contribution towards the understanding of the deformation mechanics of the solid parts under the influence of various types of loading, accelerating motion etc. The introduction of tensor facilitates the ease of analysis of different

Course Outcomes

• Learn to compute the multidimensional stress problems
• Learn to interpret the boundary value problems in stressed body
• Learn to illustrate the analysis of the n-Dimensional forces acting on an article
• Learn to assess the stresses on various type of cylinders
• Learn to transform the concepts of solid mechanics into different real-time models

Course Overview

The course motivates students to understand and develop an appreciation of the processes in correlation with material properties which change the shape, size and form of the raw materials into the desirable product by conventional or unconventional manufacturing methods.

Course Outcomes

• Learn the different casting processes and their application for producing different products
• Learn to analyze the different forming processes and their application
• Learn the mechanism of metal cutting processes and their application in different machining operations
• Learn the additive manufacturing and the welding principles, design and application
• Learn to elucidate non-conventional manufacturing processes and study the working principle, mechanism of metal removal and the effect of various process parameters

Course Overview

The course enables to understand the kinematics and rigid- body dynamics of kinematically driven machine components, the motion of linked mechanisms in terms of the displacement, velocity and acceleration at any point in a rigid lin. It also covers designing of some linkage mechanisms and cam systems to generate specified output

Course Outcomes

• Learn to conduct static and dynamic force analysis and equilibrium of forces for mechanical systems.
• Learn to apply basic principles of mechanisms in mechanical systems.
• Learn to perform balancing of rotating and reciprocating masses.
• Learn to design various types of linkage mechanisms for obtaining specific motion.
• Learn to analyze various types of linkage mechanisms for optimal functioning.

Course Overview

This course will help the students to learn about the different engineering graphical view in 2D as well as 3D. Different types of machining processes used in the industry can be learnt through this course.

Course Outcomes

• Illustrate various projected views of objects of engineering graphics and design.
• Demonstrate various machining processes in workshop.
• Learn real time applications of logic and coding
• Encourage the students towards Non-traditional thinking
• Effectively communicate scientific and technical knowledge in a professional manner

Course Overview

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Course Outcomes

Course Overview

AdtU encourages a range of activities outside the regular curriculum intended to meet learner’s interest, These activities are aimed to develop the social and soft skills and promote a holistic development of the learners, Keeping in mind the 360 degree learning methodology the students are engaged in different activities headed under different clubs viz. Dance, music, photography, drama, literary etc., The students are encouraged to participate in regular club activities, workshops, competitions as per their interest and hobbies, The student members of the club are trained represent AdtU in various inter University student and national level competitions, Renewed personalities are invited to conduct workshops that benefit the members and students by giving them the platform to learn from experts in the respective fields

Course Outcomes

• Students engagement in different activities under different clubs
• Role play in regular activities like workshops, competitions as per their interest and hobbies
• Adapt and trained to represent ADTU in various inter university, state and national level competitions
• The students will be given a platform to earn from invited experts in their respective fields.

Course Overview

Co-curricular activities are enabled to supplement and complement the curricular or main activities.

Course Outcomes

• To develop various domains of mind and personality
• To develop intellectual development
• To develop emotional, social and moral development
• To develop creativity, Enthusiasm.
• To create energetic situation

Course Overview

This course will enable the students to understand the measurement of mechanical properties of materials and characterize the dynamic behavior of mechanical systems.

Course Outcomes

• Learn the measurement of the mechanical properties of materials.
• Learn to characterize the dynamic behavior of mechanical systems.
• Learn the kinematic characteristics of mechanical devices.
• Learn the dynamic characteristics of mechanical devices.
• Learn to enhance the analyzing capacity of the design aspects.

Course Overview

The course provides knowledge on machines and related tools for manufacturing various components. It will help in understanding the relationship between process and system in manufacturing domain and identifying the techniques for the quality assurance of the products and the optimality of the process in terms of resources and time management.

Course Outcomes

• Develop the tooling needed for manufacturing
• Define the different terms of metrology and their application in different mechanical measurements
• Understand the concept of manufacturing and assembly, process planning, material handling and devices
• Identify optimum solutions for various linear programming, transportation, assignment problem
• Identify the different methods of production planning & control models and their applications

Course Overview

The course focuses on the psychological aspects of a fulfilling and flourishing life. Topics include happiness, self-esteem, empathy, love, achievement, creativity, music, spirituality.

Course Outcomes

• Understand master strategies and tools that enable individuals and organizations to thrive.
• Apply key concepts from Positive Psychology to your personal and professional life.
• Discover key theories and research in the field of positive psychology as well as opportunities for application.

Course Overview

Industrial mock viva will enable the students to experience actual interview situations for any industry. It will also enable the students to get a chance to interact with industry experts.

Course Outcomes

• Learn to identify important aspects of the courses important for the industry.
• Learn to identify their shortcomings regarding different courses.
• Learn to adapt to actual interview conditions.
• Learn to identify deficiencies concerning personality, communication, technical knowledge, etc.
• Learn real industrial problems and their solutions.

Course Overview

The "Design of Machine Elements" course is an essential component of mechanical engineering education, focusing on the principles and practices involved in designing various machine components. Students will delve into the theoretical foundations and practical applications of designing elements such as gears, bearings, shafts, springs, and fasteners. The course integrates engineering analysis, material science, and manufacturing considerations to impart a comprehensive understanding of the design process.

Course Outcomes

• An ability to design machine components that meet specific functional requirements and consider factors such as material selection, loading conditions, and failure criteria.
• An understanding of lubrication and wear of machine elements and how it affects the design process.
• An ability to design power transmission systems.
• An ability to consider manufacturing and assembly considerations in the design of machine elements.
• An ability to apply the concepts learned in class to a real-world design project.

Course Overview

This course studies the fundamentals of how the design and operation of internal combustion engines affect their performance, efficiency, fuel requirements, and environmental impact. Topics include fluid flow, thermodynamics, combustion, heat transfer and friction phenomena, and fuel properties, with reference to engine power, efficiency, and emissions. Students examine the design features and operating characteristics of different types of internal combustion engines: spark-ignition, diesel, stratified-charge, and mixed-cycle engines.

Course Outcomes

• Develop good ideas of the basics of IC engines
• Learn to justify how different parameters influence the operational characteristics of IC Engines
• Learn to illustrate combustion, and various parameters and variables affecting it in various types of IC engines
• Learn to identify about various systems used in IC engines and the type of IC engine required for various applications
• Learn to enrich the knowledge of the students to analyze how energy effects the performance of mechanical systems

Course Overview

Mechatronics is an interdisciplinary course that requires knowledge of different subjects e.g., mechanical, electronics, electrical, information technology, computer science, etc. The use of automation systems in industries, libraries, financial institutions, etc., has become possible due to the evolution of mechatronic systems. Robot technology is another dimension related to this course which enhances the health sector and automobile industries as well.

Course Outcomes

• Learn to explain the core of Mechatronic systems.
• Learn to produce the devices of the mechatronic system.
• Develop and utilize automated systems.
• Learn to classify the various smart materials.
• Learn to devise the facilities for the application of mechatronic systems.

Course Overview

This course presents an understanding of automation in the field of machine tool-based manufacturing, the basics of product design, the role of manufacturing automation and to get the knowledge of various elements of manufacturing automation – CAD/CAM, sensors, pneumatics, hydraulics, and CNC.

Course Outcomes

• Develop a comprehensive picture of computer-based automation of manufacturing operations.
• Learn and evaluate and will get accustomed to various automated techniques that are used nowadays in automated manufacturing industries.
• Develop an idea regarding modelling and simulation and also about techniques related to optimization.
• Learn an idea of the automatic system.
• Learn to generate prototypes by using the concept of automation.

Course Overview

The course provides basic understanding of working of various power plants. The course explains in details various power plants such as steam power plant, gas power plant, nuclear power plant and hydroelectric power plant. Also the subject takes into consideration renewable,energy sources such as wind, tidal, solar, geothermal, biogas and fuel cell power system. The economics of power generation and its environmental aspects are also addressed.

Course Outcomes

• Learn to illustrate the working of steam power plants and their different components.
• Learn to illustrate the working of gas turbines and combined cycle power plants.
• Learn to analyze the basics of nuclear energy conversion and its different reactors.
• Learn to classify various hydroelectric power plants.
• Learn various energy, economic, and environmental issues.

Course Overview

The course gives an overview of the different processes involved in designing an effective process. An effective process can lead to the best possible outcome of any planning. In any organization especially, in banking and financial institutions, industries, etc. proper planning can increase productivity. Cost estimation is equally important for the benefit of the organization. Cost estimation in project management is the process of forecasting the finance and other resources to finish the project within scheduled periods.

Course Outcomes

• Learn to describe the methods of planning.
• Learn to illustrate the model of effective process planning.
• Learn to estimate the cost associated with any process.
• Learn to measure the machining time and analyze the machining process for feedback.
• Learn to apprise and modify the mechanical working processes in terms of cost.

Course Overview

This course involves the various process of mechanical working e.g., machining, welding, forming, casting, etc., Adequate practical knowledge of the different machines available in the workshop is necessary for a mechanical engineer. The course enhances the expertise in hands-on training of the students.

Course Outcomes

• Learn to explain the advanced methods of manufacturing processes.
• Learn the analysis of the details of the advanced manufacturing processes.
• Learn to compare the differences between the traditional method and the advanced method of manufacturing.
• Learn to compare the advantages of the traditional and the advanced machining process.
• Learn to design and fabrication machines comprising the advantages of the traditional and the advanced machining process and limiting the shortcomings.

Course Overview

The course provides structured total quality management practices that can be applied to organization wide approaches of improving quality and productivity. The course aims to define principles of long-term success for an organization with ultimate customer satisfaction.

Course Outcomes

• Learn the basic components of total quality management.
• Learn the concept of quality and the process of continuous improvement.
• Learn to summarize the concept of six sigma.
• Learn the various tools and techniques of TQM.
• Learn to distinguish different ISO systems.

Course Overview

The course helps in understanding management concepts and their implementations. The history of the evolution of management theories has been forwarded through this course. The management concepts are used to examine process parameters such as planning, organizing, leading, appraisal, finance, and controlling and observe their influence on the business process. It discusses the relevant qualities a manager must possess for the efficient running of the organization.

Course Outcomes

• Learn to explain the managerial approach to implement in the practical field.
• Learn to recognize the nature and purpose of planning.
• Learn to integrate management theories to organize formal or informal institutions.
• Develop the leadership quality to socio-economic benefits.
• Learn to justify the management functions in an organization.

Course Overview

Economics is an important subject to understand the different aspects of finance, and economy of a nation, organization etc. The course elaborates the basic rules of economics. It includes demand law and supply law along with various statistical techniques to analyze the real-time economic problems. It encourages the sustainable economy to grow for the socio-economic benefits.

Course Outcomes

• Learn the principles of economics
• Learn to apply the concepts of Economics in Engineering problems
• Learn to explain the rights to comprehend the working hour and over duty
• Learn to illustrate the ways to mitigate the hurdles to Indian Economy
• Learn to appraise the financial aspects of projects

Course Overview

This course offers an introduction to the history and historiography of science from ancient Greece to the present. It is designed to serve as an introduction for those who have no prior background in the field and to deepen the knowledge of those who already do. This course will focus on determining the factors that make particular works effective, understanding major

Course Outcomes

• Learn to explain the Beginning and Development of different fields of science in ancient, medieval, and modern periods.
• Learn to explain the biography of different scientists like Baudhayan, Aryabhtatta, Brahmgupta, Bhaskaracharya, Varahamihira, Nagarjuna, etc.
• Learn to discover various research organizations like DRDO, CSIR, IRC, ISRO, etc.
• Learn to infer the Medical Science of Ancient India (Ayurveda & Yoga).
• Learn to measure how science and technology have been used to make sense of the world and control it.