As an agricultural engineer, you'll use the latest technology to advance environmental issues and activities.
Students have the opportunity to study machine components and equipment, testing agricultural machinery to ensure safety and performance and providing leadership on water and environmental concerns. You can play a vital role in anticipating and solving 22nd century challenges!
Our program is consistently ranked among the top 10 programs nationally, which benefits you because your degree will be one of value to employers in the state, as well as nationally and internationally. Being part of one of the nation's top programs, our students benefit from small class sizes and a focus on hands-on applications in and out of the classroom.

Applied electronics deals with the designing and development of instruments and devices that can measure, control, regulate and record data involved in various industrial processes.
This branch has been launched to usher manpower with a better and solid understanding of modern equipments used in the industry.
Factories like Power plants, refineries, compressor stations, and several other manufacturing plants and research institutions need skilled resources of this field.
This branch of engineering finds numerous applications in related fields like robotics, automobile engineering, chemical engineering, rolling mills, process control etc.

The Architectural Engineering course provides a multidisciplinary professional education that prepares students to help communities manage transformation.
The course trains students to define issues, solve problems, and implement solutions for the purpose of improving the quality of the built environment, while, simultaneously, anticipating social change and promoting social coherence. Working with people with an eye on the future, our graduates are capable of providing research, reasoned analysis and recommendations on buildings, urban, regional, environmental, and social issues.
Education at the Architectural Engineering program is rooted in basic professional ethical standards and high moral values.

Automobile engineers design, test, develop and manufacture automotive products such as heavy and light vehicles.
They help the automotive industry to meet new challenges, for example, making sure that vehicles are safe, environmentally friendly and fuel-efficient. They work not just on cars and commercial vehicles but also buses, coaches, tanks and racing cars.
Some automobile engineers specialise in design (they may be known as design engineers).
The average motor vehicle has around 10,000 individual parts and each must be designed, developed and manufactured. Design engineers need to take into account factors such as the strength, safety, efficiency, appearance and cost of parts. Many design engineers use computer-aided design (CAD) technology in their work, allowing them to create and change designs much more quickly than in the days of drawing boards.

Biomedical Engineering is to educate future biomedical engineering leaders for the academic, industrial, and government sectors, by providing an engaging academic experience in contemporary interdisciplinary research and clinical immersion.
With exposure to clinical, engineering, and industrial mentorship, our students can create a custom, discovery-centered educational and research experience. The mission of the Department of Biomedical Engineering is to educate students with strong engineering and science backgrounds so that they can productively apply their training to the solution of engineering problems in the fields of medicine, biology and related fields.
The BME Department is interdisciplinary and collaborative, with departments in the College of Engineering and College of Medicine acting as partners in the education of Biomedical Engineers.
Our graduate program is defined by the quality of its students. We pride ourselves on our diverse, dynamic, and engaged student body that serve as ambassadors to this department, college, university, and discipline.

Biochemical engineering is one of the fastest emerging branches of biotechnology. The main branch combines many other associated disciplines. Biochemical engineering applies the chemical engineering methods and principles for industrial processes.
These industrial processes are based on biological components (living cells or their components).
With the help of biochemical engineering many useful chemical compounds are produced with medicinal values such as antibiotics and in industrial biotechnology for producing industrial fermentation products (chemicals, bacterial culture, beverages, detergents, amino acids, food production etc.).
A catalyst (an enzyme or whole cell) is used for biochemical engineering processes. The catalyst used can be freely suspended in aqueous medium. It can also be gel immobilized or attached to a solid substrate.

Biotechnology is a branch of applied biology where manipulation of living cells is done to produce products or processes beneficial for mankind. This can only be achieved by active research in diverse areas of life sciences by applying the Bio techniques.
Biotechnology is a branch of applied biology where manipulation of living cells is done to produce products or processes beneficial for mankind. This can only be achieved by active research in diverse areas of life sciences by applying the Bio techniques.

Civil engineering encompasses all those work that involves construction, maintenance and innovative design of different aspects and things like bridges, canals, buildings and more.
we will take you through the different steps which are involved in civil engineering. Some of the important lectures which we will be dealing with are as follows.
- Structural dynamics: how to find the apt structure design for the equipments
- Seismic analysis of the different structures: this is important to ensure that the foundation which is laid is efficient and free of flaws.
- Use of probability in civil engineering: it forms one of the core concepts which are used extensively.
- Soil dynamics: no doubt, the texture of the soil is crucial for laying down the foundation.
- Advanced hydraulics: one has to be mindful of the type of water system which is used and the way it is set up as well.

Computer science and engineering (CSE) is an academic program at some universities that integrates the fields of computer engineering and computer science. It is a sub-field of electronics engineering. However, it covers only the digital aspects of electronics engineering, specializing in hardware-systems areas like computer architecture, processor design, high-performance computing, parallel processing, computer networks and embedded systems.

The program also includes core areas of computer science such as theory of computation, operating systems, design and analysis of algorithms and data structures. The program aims at designing, developing and troubleshooting computing devices (such as personal computers, supercomputers, robots, smartphones, networking devices, embedded devices), focusing the underlying fundamental issues (like processor architecture design, operating system design, memory management, digital system design, communication protocol design, software development and database management) in the most efficient and effective way.

“Electronics and Communication Engineering” is one of the fastest growing field of engineering courses. It involves the transmission of information across the channel.
Electronics and Communication Engineering (ECE) compiles in Communication Engineering and core Electronics Engineering. The course concept is to focus mainly on the communication part with the knowledge of the electronics field.
“Electronics and Communication Engineering deals with the electronic devices and software applications. It is an interface of chip level hardware and information technology”.
Electronics and communication engineering is an emerging field of engineering.
In first half of the course, the students go through the basic engineering concept, physics, mathematics and chemistry. In the second half of the course, the students go through the core study of communication such as design, digital electronics, fundamental of Electronics engineering, signal &aamp; circuit, electronic circuits, VLSI, power electronics, computer architecture, and control systems.

Electrical and Electronic Engineering (EEE) covers the generation, storage and use of power. The study of EEE can involve large amounts of power (eg power and control engineering) and large devices (eg power stations and electric vehicles) or small amounts of power (eg computer, communications and information engineering) and small devices (eg MP3 players and cell phones).

Electrical and electronics engineers are involved in a wide variety of technology ranging from huge global positioning systems which can pinpoint the location of a moving vehicle to gigantic electrical power generators.

Electrical Engineering has a very broad scope with the science and technology which involves electricity, electronics, and electromagnetism in order to design, construct, and maintain products, services, and information systems.

Electrical Engineering is a branch that deals with the field associated with power transm ission and motor control.

Electrical engineering is a very exploding field today. An engineer possessing a degree of Electrical and Electronics can be posted in both private and government firms.

An electrical engineer can perform various tasks such as handling, developing, designing, testing, evaluating, marketing, and selling electrical and electronics components.

Electrical engineers are responsible for designing, developing, testing as well supervising the production of electrical and electronic equipment and machinery.

Environmental engineers use the principles of engineering, soil science, biology, and chemistry to develop solutions to environmental problems. They are involved in efforts to improve recycling, waste disposal, public health, and water and air pollution control.
The Environmental Engineering Program covers a broad spectrum of specialities such as hazardous substance control, environmental planning, and environmental engineering and science.
Typically, engineering students of all streams are welcomed into this field. Generally for gaining admission into MS Environmental Engineering programs, it would be desirable if you have finished your bachelor’s in engineering in streams of chemical, mechanical, environmental, or even civil engineering. On completion of your MS, you can continue and keep going for a PhD. This will give you the edge over the other students and make you more employable.

Geotechnical engineering is the study of the behaviour of soils under the influence of loading forces and soil-water interactions. This knowledge is applied to the design of foundations, retaining walls, earth dams, clay liners, and geosynthetics for waste containment.
Geotechnical engineering is a sub-discipline of Civil engineering and deals with earth materials and how they behave. Geotechnical engineering is employed by military, construction, mining and petroleum industry. In construction field, this particular field deals with the sub-structure and how the structure reacts against the forces of nature.
Being a geotechnical engineer requires that you have a good understanding of how materials work and how to determine their basic properties. One needs to be familiar with standard tests and should be good at lab work. The field also requires the engineer to be well conversed with simulation softwares. The primary task of a geotechnical engineer is to determine how good a soil is before the construction begins and if required, suggest remedies to improve the soil quality.

Geotechnical engineering is the study of the behaviour of soils under the influence of loading forces and soil-water interactions. This knowledge is applied to the design of foundations, retaining walls, earth dams, clay liners, and geosynthetics for waste containment.
Geotechnical engineering is a sub-discipline of Civil engineering and deals with earth materials and how they behave. Geotechnical engineering is employed by military, construction, mining and petroleum industry. In construction field, this particular field deals with the sub-structure and how the structure reacts against the forces of nature.
Being a geotechnical engineer requires that you have a good understanding of how materials work and how to determine their basic properties. One needs to be familiar with standard tests and should be good at lab work. The field also requires the engineer to be well conversed with simulation softwares. The primary task of a geotechnical engineer is to determine how good a soil is before the construction begins and if required, suggest remedies to improve the soil quality.

Industrial biotechnology uses living cells, such as bacteria and yeast, or enzymes to make bio-based products in industrial sectors such as chemicals, food, detergents, textiles and bioenergy (biofuels or biogas).
The Industrial Biotechnology program prepares you for a career in bio manufacturing, quality control, or research and development. You will get extensive, hands-on training in various aspects of genetic modification and assay development, as well as training in the financial, regulatory and organizational skills needed to work in this industrial biotechnology field.

Mechanical engineering is the study of motion, energy and force. The mechanical engineer seeks to control these elements by using a combination of material, human and economic resources to develop mechanical solutions that help satisfy the needs and wants of society.
What Do Mechanical Engineers Do?
Some of the most common job functions of a mechanical engineer are:
Product Design:
Designing products ranging from biomedical devices to internal combustion engines to fuel-efficient motor vehicles, motors and appliances.
Research and Development:
Researching new ideas and solutions that satisfy society’s demands or improving or expanding older ideas and solutions.
Manufacturing:
Designing and building the machines that mass produce consumer products. Of prime importance is designing and building machines that improve operating efficiency.
Systems Management:
Managing the operations of a large system, such as a manufacturing facility or a power plant.

Mechatronics is a multidisciplinary field of science that includes a combination of mechanical engineering, electronics, computer engineering, telecommunications engineering, systems engineering and control engineering. As technology advances, the subfields of engineering multiply and adapt.
B.Tech Mechatronics programme provides engineers with multi-disciplinary skills. The programme is made after clubbing mechanical, electronics, computer and systems design engineering streams. Mechatronics programme strengthens the students with the skills that allow them to design, construct and run factory production lines and automated processes.
Students studying this course are well equipped with the skills that they can use in computers, micro-controllers, programmable logical controllers, programming, industrial sensors, hydraulic, pneumatic and electric drives, design of mechanical structure and mechanism and manufacturing process.

Some petrochemical engineers may be employed as what the bureau calls petroleum engineers. They work on the supply end of the industry, dealing with oil and gas extraction and production, rather than the chemical alteration of the raw materials. The mean annual wage for petroleum engineers was $138,980, according to the bureau.
When most people think of oil, the gas they put into their cars probably comes to mind. But crude oil pumped from the ground or sea can be manufactured into far more than fuel, thanks to petrochemical engineers. These engineers are able to break down oil or natural gas into its base components and then reconstruct it as specific types of oil products such as auto fuel, as well as plastics, polymers and other compounds found in many everyday products, from dishwasher-safe containers to artificial carpet fibers.

Software engineering is a branch of science that exists from the beginning of time and is actually the basis of time. Engineering is like a huge tree that has many branches so, there’s something for everyone. One of the branches is software engineering, software engineering is a branch of engineering which deals with programming and designing mostly for computers.
If you are one of those techies who cannot stay away from computers and are technically, then this a perfect career for you.
Field of software engineering includes the following aspects:
Designing Programs
Writing Programs
Improving existing Programs.

Information Science is an inter-disciplinary field focused on cognitive science, commerce, communication and management. An IS major needs to be aware of what information technology can contribute to an organization and how to bring that solution to fruition. The strength of an IS major lies in his/her ability to apply the knowledge of information systems and technology to help organizations compete more successfully in the marketplace or to streamline current operations.

Construction Engineering is a professional discipline that deals with the designing, planning, construction, and management of infrastructures such as roads, tunnels, bridges, airports, railroads, facilities, buildings, dams, utilities and other projects. Construction Engineering is considered a professional sub-practice area of civil engineering or architectural engineering.
Construction technology is a related field that deals more with the practical aspects of projects. Construction technologists or construction technicians learn some of the design aspects similar to civil engineers and some of the project site management aspects similar to construction managers. These technicians are unique such that they are a cross between civil engineers and construction managers.
At the educational level, civil engineering students concentrate primarily on the design work, which is more analytical, gearing them toward a career as a design professional. This essentially requires them to take a multitude of challenging engineering science and design courses as part of obtaining a 4-year accredited degree. Also, education for construction managers is primarily focused on construction procedures, methods, costs, schedules, and personnel management. Their primary concern is to deliver a project on time, within budget, and of the desired quality.

Telecommunications engineering, or telecoms engineering, is an engineering discipline centered on electrical and computer engineering which seeks to support and enhance telecommunication systems.[1][2] The work ranges from basic circuit design to strategic mass developments. A telecommunication engineer is responsible for designing and overseeing the installation of telecommunications equipment and facilities, such as complex electronic switching systems, and other plain old telephone service facilities, optical fiber cabling, IP networks, and microwave transmission systems. Telecommunication engineering also overlaps with broadcast engineering.

Transportation engineering or transport engineering is the application of technology and scientific principles to the planning, functional design, operation and management of facilities for any mode of transportation in order to provide for the safe, efficient, rapid, comfortable, convenient, economical, and environmentally compatible movement of people and goods (transport)[citation needed]. It is a sub-discipline of civil engineering.The importance of transportation engineering within the civil engineering profession can be judged by the number of divisions in ASCE (American Society of Civil Engineers) that are directly related to transportation. There are six such divisions (Aerospace; Air Transportation; Highway; Pipeline; Waterway, Port, Coastal and Ocean; and Urban Transportation) representing one-third of the total 18 technical divisions within the ASCE (1987).