The course consists of topics in differential calculus, integral calculus, linear algebra, and differential equations with applications to various engineering problems. This course will cover the following main topics: Mean Value Theorems; Indeterminate Forms; Taylor's and Maclaurin's Theorems.
This course is a combination of three different components, namely Mathematics, Logic, and Coding. The first part covers the mathematical background and fundamental skills necessary for success in Set Theory, Functions, Mathematical Logic, and Induction. This course also will introduce you to verbal and non-verbal reasoning, and informal and formal logic. Its purpose is to provide you with the basic tools of analytical reasoning, which will give you a distinctive edge in a wide variety of careers and courses of study. The course also tries to deal with basic programming concepts and problems solving using the C – language.
Engineering Physics deals with electrical science, electronics, mechanics, computing, nuclear physics, and more. The course deals with engineering concepts and topics falling under engineering physics.
Basic Electrical Engineering deals with the basic Laws of electricity such as Ohm's law Kirchhoff's voltage and current laws Nodes Branches and loops Series elements and Voltage Division Parallel elements and Current Division and Star-Delta transformation Independent sources and Dependent sources and source transformation.
This is a major component of engineering practices. It includes both theory and practical knowledge of the students. In the mechanical workshop, various shops are incorporated such as a welding shop, carpentry shop, fitting shop, machine shop, sheet metal shop, foundry shop, etc.
The course will improve the overall communication skills of the students, they will be taught important basic English grammar. It will help them attain professional skills in communication. The modules are meant for enhancing their professional success. The topics of grammar would be followed by practice and exercises that they would find interesting. Students will also be taught the theories and other nuances of communication.
C is a general-purpose computer programming language developed in 1972 by Dennis Ritchie at the Bell Telephone Laboratories. As it was known as ‘C‘ because most of its features were taken from an earlier language called ‘B’. C is highly portable and is used for scripting system applications which form a major part of Windows, UNIX, and Linux operating systems. It can efficiently work on enterprise applications, games, graphics, and applications requiring calculations etc.
C is a general-purpose computer programming language developed in 1972 by Dennis Ritchie at the Bell Telephone Laboratories. As it was known as ‘C‘ because most of its features were taken from an earlier language called ‘B’. C is highly portable and is used for scripting system applications which form a major part of Windows, UNIX, and Linux operating systems. It can efficiently work on enterprise applications, games, graphics, and applications requiring calculations, etc.
The objective of the Engineering Chemistry is to acquaint the students with the basic phenomenon/concepts of chemistry, the student face during course of their study in the industry and Engineering field. The student with the knowledge of the basic chemistry, will understand and explain scientifically the various chemistry related problems in the industry/engineering field. The student will able to understand the new developments and breakthroughs efficiently in engineering and technology.
The objective of the Engineering Chemistry is to acquaint the students with the basic phenomenon/concepts of chemistry, the student face during course of their study in the industry and Engineering field. The student with the knowledge of the basic chemistry, will understand and explain scientifically the various chemistry related problems in the industry/engineering field. The student will able to understand the new developments and breakthroughs efficiently in engineering and technology
This course provides free hand drawing techniques for various kind of geometrical constructions. This course also includes scales and dimensioning techniques to draw various projections such as orthographic projections and isometric projections. Sectional views of geometrical solids also form a part of the course.
This course provides free hand drawing techniques for various kind of geometrical constructions. This course also includes scales and dimensioning techniques to draw various projections such as orthographic projections and isometric projections. Sectional views of geometrical solids also form a part of the course.
The student will acquire basic proficiency in English including reading and listening comprehension, writing and speaking skills.
The course will help the student to acquire basic proficiency in English including reading and listening comprehension, writing and speaking skills.
This course is about the basic mathematics that is fundamental and essential component in all streams of undergraduate studies in sciences and engineering. The course consists of topics in calculus, ordinary differential equations and complex variables.
The course on constitution of India highlights key features of Indian Constitution, like directive principles of state policy, fundamental rights and duties, and the various organs of constitution.
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.
An ability to apply principles of mathematics, science, and engineering in a variety of contexts. An ability to use the techniques, skills, and tools necessary for science and engineering practice. An ability to design and conduct experiments, as well as to analyze and interpret data. An ability to apply principles of mathematics, science, and engineering in a variety of contexts. An ability to use the techniques, skills, and tools necessary for science and engineering practice. An ability to design and conduct experiments, as well as to analyze and interpret data.
It is very much important for engineering students to understand the basic principles of engineering and the introduction of biological concepts so that they can effectively interact to concern for providing solutions to the problems related to bio systems. From this course students will be able to understand biological concepts from an engineering perspective, inter-connection between biology and future technologies and motivate technology application for biological and life science challenges.
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 you need to analyze energy systems from solar panels, to engines, to insulated coffee mugs. More specifically, we 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.
This course is designed to impart practical knowledge about some practical phenomena they have studied in the engineering physics course and to develop the experimental skills of the students. To develop the basic concepts and apply it to solve numerical problems of Surface tension and their applications to technology. To recall the basic concepts of Crystal structure, X-rays and apply them in solving numerical problems based on them and in relating to applications for determination of crystal structure.
The course is designed to empower young minds in demanding situations in personal, professional, and social life. The course aims at inculcating in the students both personal and professional skills in the areas of understanding of self and others, interpersonal skills, high performance teams, leadership potential, communication & presentation skills, techniques of problem solving, decision making, fostering creativity and innovation for personal and professional excellence. The course also identifies communication skills needed to excel in today’s dynamic environment.
This course will help the students be the department of international standards that focuses on the development of entrepreneurs and domain-specific professionals on the platform of technology-enabled learning systems and industrial interfaces. The main objective of this course is to provide students with the foundations of probabilistic and statistical analysis mostly used in varied applications in engineering and science like disease modeling, climate prediction, computer networks, etc.
This course presents theoretical and thermodynamic background for the internal combustion engine and gas turbine engine cycles, aviation and rocket propulsion cycles, refrigeration cycle, steam and gas power cycle, and psychometric concepts. This course aims to provide a good platform to mechanical engineering students to understand, model and appreciate concept of dynamics involved in thermal energy transformation. To prepare them to carry out experimental investigation and analysis at later stages of graduation.
This course offers basic knowledge on fluid statics, dynamics and hydraulic machines. The objective of this course is to enable the student to understand laws of fluid mechanics and evaluate pressure, velocity and acceleration fields for various fluid flows and performance parameters for hydraulic machinery. A substances that flows is called as 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 as the coolant in nuclear power plants, oil is used for the lubrication of automobiles etc. Fluid Mechanics is the branch of science that studies the behavior of fluids when they are in state of motion or rest. Whether the fluid is at rest or motion, it is subjected to different forces and different climatic conditions and it behaves in these conditions as per its physical properties. Fluid mechanics deals with three aspects of the fluid: static, kinematics, and dynamics aspects.
This course will help understand the nature of stresses developed in simple geometries such as bars, cantilevers, beams, shafts, cylinders, and spheres for various types of simple loads and also to calculate the elastic deformation occurring in various simple geometries for different types of loading. The stresses and strains that develop within a mechanical member must be calculated to assess the load capacity of that member. This requires a complete description of the geometry of the member, its constraints, the loads applied to the member, and the properties of the material of which the member is composed. The applied loads may be axial (tensile or compressive), or rotational (strength shear). With a complete description of the loading and the geometry of the member, the state of stress and the state of strain at any point within the member can be calculated. Once the state of stress and strain within the member is known, the strength (load-carrying capacity) of that member, its deformations (stiffness qualities), and its stability (ability to maintain its original configuration) can be calculated.
This course will help understand 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.
Environmental Studies (EVS) at the primary stage envisages exposing children to the real situations in their surroundings to help them connect, be aware of, appreciate and be sensitized towards the prevailing environmental issues (natural, physical, social and cultural). Beginning with child’s immediate surroundings (including natural, social, physical and cultural settings) related to self, home, school and family in the early grades and gradually moving on to the wider environment (neighbourhood and community at large), EVS not only helps children to get acquainted with their own environment but it also strengthens their bond with it.
The Instrumentation Technology certificate will develop entry level skills in industrial instrumentation, maintenance and calibration. Courses combine the technical know-how, the use of state of the art equipment, and hands on experience necessary for work in a variety of industrial instrumentation fields to include all automated industries such as upstream and downstream oil and gas, mineral technology, each instrument company introduced their own standard instrumentation signal, causing confusion until the 4–20 mA range was used as the standard electronic instrument signal for transmitters and valves. This signal was eventually standardized as ANSI/ISA S50, “Compatibility of Analog Signals for Electronic Industrial Process Instruments", in the 1970s. The transformation of instrumentation from mechanical pneumatic transmitters, controllers, and valves to electronic instruments reduced maintenance costs as electronic instruments were more dependable than mechanical instruments. This also increased efficiency and production due to their increase in accuracy. Pneumatics enjoyed some advantages, being favored in corrosive and explosive atmospheres power generation, wastewater treatment and HVAC.
The Professional Employability Skills Training Program imparts one with the required skills to gain a competitive edge in any job market. This program, with an emphasis on hands on training, uses techniques like role play, business communication, team leadership.
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 link, able to design some linkage mechanisms and cam systems to generate specified output motion and understand the kinematics of gear trains.
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.
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 complicated problems under the dynamic loading.
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.
Literature allows a person to step back in time and learn about life on Earth from the ones who walked before us. We can gather a better understanding of culture and have a greater appreciation of them. We learn through the ways history is recorded, in the forms of manuscripts and through speech itself.
This course aims to provide practical knowledge to students regarding the concepts of heat transfer through various systems. This course provides experimental evaluation for different modes of heat transfer.
The course aims at imparting basic principles of thought process, reasoning and inferencing. Sustainability is at the core of Indian Traditional knowledge Systems connecting society and nature. Holistic life style of yogic science and wisdom capsules in Sanskrit literature are also important in modern society with rapid technological advancements and societal disruptions. Part-I focuses on introduction to Indian Knowledge Systems, Indian perspective of modern scientific world-view, and basic principles of Yoga and holistic health care system.
The course provides knowledge on machines and related tools for manufacturing various components, understand the relationship between process and system in manufacturing domain, Identifying the techniques for the quality assurance of the products and the optimality of the process in terms of resources and time management.
This course seeks to provide an introduction to the design of machine elements commonly encountered in mechanical engineering practice, through a) A strong background in mechanics of materials based failure criteria underpinning the safety-critical design of machine components b) An understanding of the origins, nature and applicability of empirical design principles, based on safety considerations c) An overview of codes, standards and design guidelines for different elements d) An appreciation of parameter optimization and design iteration e) An appreciation of the relationships between component level design and overall machine system design and performance.
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.
This course will students understand who have undergone the course will be able to understand the measurement of mechanical properties of materials and will be able to characterize the dynamic behavior of mechanical systems.
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.
The scientific study of what makes people live fulfilling lives is known as positive psychology. The science of thriving is the main topic of this introductory course, which addresses issues like what it means to be "happy" and how we might promote well-being in our personal lives, our workplaces, and our communities.
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.
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.
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.
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.
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.
The course provides an introduction to key topics in nanotechnology; experimental techniques that can be used to study nanoscale materials and phenomena; material properties on the nanoscale; introduction to physics and chemistry needed to understand nanoscale phenomena and material properties.
Economics is an important subject to understand the different aspects of finance, and the economy of a nation, organization, etc. The course elaborates on the basic rules of economics. It includes demand law and supply law along with various statistical techniques to analyze real-time economic problems. It encourages the sustainable economy to grow for the socio-economic benefits.
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.
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.
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 contemporary trends and debates in the history of science, and establishing resources for further research.
CST- Common scholarship test is a national and international level online MCQ based examination funded for intellectual empowerment by Assam down town University.
CST- Maximum enrolment each year is 120 seats and any 10+2 students can apply.
Adtu is northeast India’s first placement driven university to provide 100% scholarship benefits worth 10 cr.
CST aims to inspire brilliant and competent students to pursue further education.
Accredited with a prestigious grade by NAAC, UGC and AICTE.
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A-CONNECT is an inhouse social media and a “know your university better” kind of platform. This app provides you all the data regarding your course handout, lesson plans, question banks, e- journals, recorded videos of classes with the YouTube links and necessary external links. This platform is a user-friendly application where one can access the details of admission and examination procedures, results, deadlines and in fact one’s own graph with the reference of E-grade sheet.
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