Bachelor's Degree in Engineering in USA

See Bachelor Programs in Engineering in USA 2017

Engineering

Rewarding career opportunities in construction, research, manufacturing, architecture, development, agriculture, design, government agencies, education and health institutions are available for graduates from Bachelor programs in Engineering. Universities and colleges in the USA often offer career support for job placement after college. Bachelor of Engineering students in the USA can expect to spend approximately four years working toward their degree, with cooperative education or internship learning experiences being a requirement for graduation. Costs will vary widely depending on the school in the USA, as there are many private and public schools across the country.

Universities and colleges in the USA often require Bachelor of Engineering students to enroll in general education courses in liberal arts in order to produce well-rounded graduates. Foundational studies in Bachelor of Engineering programs are focused on science and mathematics, and include physics and calculus. Following general education and foundational coursework, students then take specialized courses in their concentration, which could be related to any area of the particular field of Engineering the students are studying (ie: Construction Management, Mechanical Engineering, Electrical Engineering, Materials Science, etc).

If you are ready to find out how you can enroll in a Bachelor of Engineering at a university or institution in the USA, simply scroll down to find out how! You can request more information from any featured school in just one minute.

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Bachelor in Engineering (1st two years)

San Mateo Colleges of Silicon Valley
Campus Full time January 2017 USA San Mateo

Cañada College has a fully accredited Engineering transfer program. This lower-division program consists of the same courses offered at any four-year college or university at a substantially lower cost, taught by a faculty with considerable industrial experience. [+]

Best Bachelors in Engineering in USA 2017. Cañada College and College of San Mateo have fully accredited Engineering transfer programs. These lower-division program consists of the same courses offered at any four-year college or university at a substantially lower cost, taught by a faculty with considerable industrial experience. Virtually all our Engineering students have subsequently obtained their degrees at a four-year college or university and have entered the Engineering profession. The College has articulation agreements with engineering departments of UC, CSU and independent colleges and universities. Engineering is one of the largest professions in the United States with over one million jobs in fields ranging from airplane design to pollution control. The four largest branches of engineering are electrical, mechanical, civil and computer engineering. All branches of engineering place a heavy emphasis on problem solving. Engineering education focuses on teaching scientific and engineering concepts and their application to the creative and effective solution of problems. Career opportunities for practicing engineers include positions in aerospace, agricultural, architectural, biomedical, chemical, civil, computer, electrical, environmental, industrail, materials, mechanical, and nuclear fields. Most engineers work for manufacturing industries, while a smaller percentage work for federal, state and local government agencies, or as private consultants. Program Learning Outcomes: Students completing this program will be able to: Apply knowledge of math, science, and engineering or computer science to identify, formulate, and solve engineering/computer science problems. Communicate effectively and work well in situations that require teamwork. Design and perform tests or experiments, analyze and interpret data, and prepare a report summarizing the results of the tests or experiments. Develop a design or system given a set of requirements and specifications. Formulate a plan of study to obtain a Bachelor’s degree in engineering or computer science. Use techniques, skills, and modern engineering and computer tools necessary for engineering or computer science practice Please note that the majority/all of the programs are available at all of our three Colleges. [-]

Bachelor of Engineering

Lane Community College
Campus Full time Part time 4 years September 2017 USA Eugene + 1 more

Engineers use their imagination and analytical skills to invent, design, and build things that matter. They are team players with independent minds who ask, "How can we develop a better recycling system to protect the environment, design a school that can withstand an earthquake, or create cutting-edge special effects for the movies?" By dreaming up creative and practical solutions, engineers are changing the world all the time. [+]

What is Engineering? Engineers use their imagination and analytical skills to invent, design, and build things that matter. They are team players with independent minds who ask, "How can we develop a better recycling system to protect the environment, design a school that can withstand an earthquake, or create cutting-edge special effects for the movies?" By dreaming up creative and practical solutions, engineers are changing the world all the time. Some of the Fields of Engineering Civil, Mechanical, Electrical, Industrial, Manufacturing, Computer, Chemical, Aerospace, Environmental, Transportation, Biomedical, Materials, Nuclear, Petroleum, Forest, Ocean, Water Resources, and Bioengineering. Career Prospects Most branches of engineering offer a wide variety of well-paying, interesting employment opportunities throughout the world. Some jobs emphasize outdoor field work, such as construction site activity or ocean floor or aerospace exploration and research. Other jobs might focus on design of ordinary objects for daily use or on medical technology. Many positions utilize computers for analysis and problem solving. Often, engineers move into responsible management positions or consulting work after several years. For specific salary information, contact Lane's Career and Employment Services office, or search the internet using "engineering salaries." Why Study Engineering? Do you want to invent things? Solve problems? Improve the world? Successful completion of an engineering major guarantees you a solid background in mathematics and the physical sciences, as well as exposure to the social sciences and liberal arts. The Lane experience of pursuing an engineering degree is exciting and interesting, and provides tremendous flexibility in choosing a career direction. Sometimes an engineer or engineering student becomes interested in another area of work or study, such as medicine, law, education, or business management. The analytical and problem-solving skills developed while pursuing an engineering degree transfer well to these and other disciplines. Why start your engineering education at Lane? History Since 1980, students from Lane have transferred to universities throughout the United States to complete their engineering education. Many have gone on to earn advanced degrees in graduate school. Former students have achieved academic and professional success and are now working as professionals throughout Oregon and the nation. What Former Lane Students Say About the Program "The education I received at Lane provided excellent preparation for upper division engineering courses. I would do it again and encourage other potential engineers to follow a similar path." —Nathan Mead, Ph.D. Mechanical Engineering, University of Utah; M.S., B.S. Mechanical Engineering, Oregon State University; and now Professor at the Oregon Institute of Technology "The quality of Lane's courses is the same as what I experienced in my graduate level classes at Berkeley." —Brad Larsen, M.S. Civil Engineering, University of California, Berkeley; B.S. Civil Engineering, Oregon State University Advantages of Lane's Engineering Program Students in our program usually transfer directly into junior year (upper division) professional programs at a university of their choice. Lane offers quality, university-level instruction at tuition rates lower than those of university programs. Lane has small classes (usually fewer than 30 students). The student population in the program is diverse in age, experience, and cultural background. This provides a rich learning environment. The program has faculty with professional engineering backgrounds and years of college teaching experience. All faculty have graduate degrees and are available, helpful instructors. New facilities: a new mathematics and science building provides state-of-the-art classrooms and laboratories. We have close working relationships with engineering professional programs at universities in Oregon. The mission of the engineering transfer program is to prepare students for their transition to a four year university. Lane has a proven record of success. [-]

Bachelor in Engineering

Oral Roberts University
Campus Full time 8 semesters September 2017 USA Tulsa

The engineering major is designed to provide students with a background to apply mathematics and natural sciences to the solutions of relevant problems in society. [+]

Best Bachelors in Engineering in USA 2017. The engineering major is designed to provide students with a background to apply mathematics and natural sciences to the solutions of relevant problems in society. Engineers turn ideas into reality by designing products and processes that will be beneficial to people. At ORU, we understand that to truly study our world you have to consider its Creator. Studying engineering at ORU provides the unique experience of a Christian perspective on science. Students choosing the engineering major will complete general education courses, engineering major classes and complete one of the following three concentration areas: electrical engineering, mechanical engineering or computer engineering. This major is accredited by ABET, Inc. Areas of Concentration Electrical Engineering Students choosing the electrical engineering concentration will be exposed to the concepts underlying the analysis and design of circuits, frequency analysis and design of amplifiers, application of digital systems design, a study of electrostatics, electric and magnetic circuits and fields and symmetrical components as well as an introduction to electromechanical devices. Mechanical Engineering In the mechanical engineering concentration students will study mechanics of materials, the application of thermodynamics to components and systems, the design of machines based on kinematic and kinetic requirements, the principles of machine component design, and the analysis of the behavior of stationary and flowing fluids. Additionally, students have the opportunity to experience problem-solving in heat transfer. Computer Engineering Students in the computer engineering concentration experience the growing areas of computer networks and communication. Course study includes digital and microprocessor systems design, computer architecture and the factors influencing the design of hardware and software elements of computer systems. Outcomes Engineering graduates are in high demand and typically receive high-starting salaries. Some ORU graduates choose to use their education in the mission field or to pursue graduate studies at major universities. Many also work for a wide range of industries including Baker Hughes, Danaher, Boeing, G.E., Cessna and Toyota. [-]

Bachelor in Mechanical Engineering

University of Nevada, Reno
Campus Full time September 2017 USA Reno

The bachelor's degree in mechanical engineering is broadly designed to accommodate a variety of career goals. Students take a core of required courses in engineering, the humanities, mathematics and science, as well as supplementary elective courses. These courses introduce basic engineering science and design concepts and provide students with the opportunity to develop specific career interests in sub-fields of mechanical engineering such as renewable energy, nanotechnology or biomedical engineering. [+]

The bachelor's degree in mechanical engineering is broadly designed to accommodate a variety of career goals. Students take a core of required courses in engineering, the humanities, mathematics and science, as well as supplementary elective courses. These courses introduce basic engineering science and design concepts and provide students with the opportunity to develop specific career interests in sub-fields of mechanical engineering such as renewable energy, nanotechnology or biomedical engineering. Our nationally ranked program gives students the chance to work closely with distinguished faculty and get hands-on experience as they move from building Lego cars as freshmen to designing a capstone project of their own choosing as seniors. Students can take advantage of two teaching labs as well as a full-service machine and welding shop used for student projects and research equipment. Related Degrees and Programs Mechanical Engineering, Minor Mechanical Engineering, Master of Science Degree Mechanical Engineering, Doctor of Philosophy Degree What Will I Learn? Successful engineering students arrive at the University with a strong background in math and science. We recommend students have taken physics and chemistry courses in high school and are prepared to take calculus as freshmen. Our program teaches you to apply your math and science knowledge, along with a creative approach to problem-solving and design, to the development of basic mechanical engineering systems. Graduates of the bachelor's degree program should have the following skills: Proficiency in entry-level mechanical engineering analysis and design Ability to define, design, execute and analyze experiments with minimal supervision Ability to communicate effectively, verbally and in writing Graduates are prepared to pursue further professional study in mechanical engineering or related areas, or in medicine, business or law. Requirements Coursework in the mechanical engineering major focuses on math, science and engineering. Students complete courses on a range of mechanical engineering topics as well as relevant topics in other engineering disciplines. During the senior year, students have a chance to pursue electives on areas of interest within mechanical engineering. These electives must include a course/lab combination covering one of the following topics: Thermodynamics Intermediate heat transfer Cooling electronic equipment Advanced mechanics Intermediate dynamics Mechanical vibrations Intermediate fluid mechanics As seniors, mechanical engineering majors round out their design experience with two capstone classes. Students learn to synthesize design considerations ranging from the economic to the ethical as they create and optimize mechanical systems. Throughout the year, students work in teams to build a marketable design project. Students must also take the Fundamentals of Engineering Examination administered by the Nevada Board of Professional Engineers. The FE exam is generally taken during the spring of your senior year. Register for ENGR 490 in order to have the exam recorded on your transcript. Career Options Mechanical engineers may play a role in the design or construction of anything that moves, from tiny motorized devices to airplanes and rocket ships. Because mechanical engineering is such a broad field, graduates can look forward to diverse employment prospects and strong demand for their skills. A 2012 survey by the National Association of Colleges and Employers placed mechanical engineering at number five on its list of the top 10 bachelor's degrees for 2013. Mechanical engineers can also specialize in sub-disciplines ranging from biomedical to fluid/thermal sciences to materials. According to the Bureau of Labor Statistics, new technologies such as alternative energy sources and nanotechnology may drive much of the growth for mechanical engineers in coming years. Additionally, many mechanical engineering careers offer highly competitive salaries, even to bachelor's degree holders. According to a 2011 report from Georgetown University's Center on Education and the Workforce, mechanical engineering majors had a median salary of $80,000, which ranked among the top salaries for all majors. [-]

Engineering

University of the Pacific
Campus Full time Part time September 2017 USA Stockton

The School of Engineering and Computer Science develops dual competencies in students: both technical and social skills. Whether you want to build strong cities, advance health care, sustain the environment or create the next great app, the School of Engineering and Computer Science prepares you to succeed. [+]

Best Bachelors in Engineering in USA 2017. Engineering School of Engineering and Computer Science Are you a determined problem solver? Do you like to build, create, discover and collaborate? Then the School of Engineering and Computer Science is the perfect fit for you! Whether it's building strong cities, advancing health care, sustaining the environment, or creating the next greatest app, technology is a field as limitless as your imagination. At Pacific SOECS, our students develop dual competencies - technical and social. They must understand the principles of science as well as the nature of human needs and behavior and the impact of technology on society. The modern engineer and computer scientist deal with socially relevant matters including pollution, energy resources, sustainability, health care and public transportation systems. They are experts in manufacturing processes, communications systems, medical electronics, the space program and numerous other endeavors that provide citizens of the world with a safer and more conscious experience. Majors The School of Engineering and Computer Science offers eight undergraduate degree programs: Bioengineering, Civil Engineering, Computer Engineer, Computer Science, Electrical Engineering, Engineering Management, Engineering Physics, and Mechanical Engineering. The curricula are divided into lower-division and upper-division segments. The lower-division curriculum stresses fundamentals in science, mathematics, and engineering. The first two years are essentially the same for all engineering majors. The upper-division combines courses in the major area with work experience through the Co-op Program. Minors Within the School of Engineering and Computer Science there are five minors available to students: Computer Science Minor, Minor in International Engineering, Minor in Engineering Management, Minor in Sustainability, Minor in Technology (for non-engineering students only). Graduate Program Pacific's master's degree program allows students to begin graduate course work during their senior year at Pacific, completing both degrees in a total of five years. The Master of Science in Engineering Science degree is offered with concentrations in Civil Engineering (Environmental and Structural), Computer/Electrical Engineering, and Computer Science; Mechanical Engineering. [-]

Bachelor in Engineering

Marian University
Campus Full time September 2017 USA Indianapolis

Marian University and IUPUI provide our engineering students the technical knowledge, educational breadth and human skills to make them leaders in their fields. [+]

Bachelor in Engineering Become an Engineer Engineering Leaders of the 21st Century In cooperation with Purdue University at IUPUI, Marian University offers a unique and rigorous engineering program where the graduate receives two degrees upon graduation—a bachelor of science in mathematics or chemistry from Marian University and a bachelor of science in biomedical, electrical, or mechanical engineering from Purdue. All of our engineering options are accredited by the Accreditation Board for Engineering and Technology (ABET). Ask about motorsports, computer, and energy engineering, because we are working on developing those programs. Marian University and IUPUI provide our engineering students the technical knowledge, educational breadth and human skills to make them leaders in their fields. We are looking for students who not only want to be technically proficient but also want to lead their firms toward future success in the increasingly technical world. Apply Early! Students interested in the Dual Degree Engineering Program must complete their applications to Marian University no later than March 15! Mid-American Engineering Hub Biomedical Engineering DOW Agrosciences WILD Flavors Eli Lilly Roche Diagnostics Electrical Engineering RCA Klipsch Verizon Wireless Mechanical Engineering Rolls Royce SMC Yoh Why This Program? There are at least two very sound reasons for coming to Marian to study engineering, one immediate and one long-term. During your school years you will have the experience of a small, Catholic university and the way of living and relating with others characteristic of that environment. You will not be just another face in the crowd here. It’s personal, and our broad liberal arts foundation ensures you see the bigger picture. Simultaneously, you can take advantage of a larger, urban campus just minutes away and know that experience as well, while earning a world-class engineering degree. Long term, the return on the investment is significant for those who complete a program like this. Engineers are very employable, and with a math (or chemistry) degree alongside, you would compete well if the market narrows. The broad general education that comes with a Marian University degree also gives students different ways to see, understand, and interact with the world, and equips a graduate for positions of leadership and responsibility. Message from the President "This program provides a pathway for students at Marian University to earn an engineering degree—a degree very much in demand in today’s economy. We are confident that outstanding students seeking a stronger liberal arts foundation in this vibrant and faith-based community will thrive in this new program. This new partnership will attract talented students who desire an education that will prepare them to not only secure challenging and well-paid jobs upon graduation, but also a rich and rewarding life,” Daniel J. Elsener President of Marian University Life as a Dual Degree Engineer Complete the requirements for two separate bachelor's degrees in five packed years. Year One involves a common set of foundation courses that all engineers must study—Calculus, Chemistry, and Physics, of course; along with the First Year Seminar, English, Public Speaking, and an initial course in engineering design and 3-D modeling. Courses are very sequenced, so there's little flexibility during Years One and Two. Only students with some form of transfer credit for one or more of these will follow a different schedule during the first year. A common schedule maximizes mutual support. To enhance that mutual support, we expect first year engineering students to live on campus even if they hail from the Indianapolis area. Classes One course at IUPUI in the fall of Year One. Most students stay on Marian University's campus for the remainder of Years One and Two. During these two years you mature as a person and scholar while enjoying the benefits of our smaller, more personal environment. In Year Two you will take some major-specific courses, but the common math and physics path continues. Beginning in Year Three, our engineers take classes on both campuses and dive into more advanced work that builds on the first two years' foundation material. Sports Many of our engineering students participate in intercollegiate sports. The schedule during Years One and Two accommodates our athletic practice time. Beginning in Year Three athletes may need to make some compromises in order to attend afternoon engineering classes. Coaches understand that the phrase 'student-athlete' is in priority order. Dual Enrollment Not a traditional 3-2 arrangement, where students spend three years at one institution, then transfer to complete their program. Accepted students enroll at both Marian University and IUPUI from the start. One introductory course at IUPUI in the first semester, Mechanical and aspiring biomedical engineers will take all of their other courses at Marian University during their freshman and sophomore years. Electrical engineers will begin taking classes at IUPUI in the spring of their second year. Access to career and internship services at Marian University, IUPUI, and Purdue - West Lafayette Dual Degree Engineering Program Admission Requirements Note, these requirements apply only to the Dual Degree Engineering Program (DDEP). In view of the intense academic demands of this program, students seeking admission to the DDEP must meet higher minimum requirements than other students applying for admission to Marian University, or to engineering at IUPUI. Those are: - Core 40 or Academic Honors Diploma, OR - 8 semesters of mathematics including pre-calculus, trigonometry, or math analysis. Calculus is encouraged. - 8 semesters of English - 6 semesters of science with labs including a year of chemistry. Physics is strongly encouraged. - 6 semesters of social science - 4 semesters of additional college prep courses selected from mathematics, English, science, foreign language, and social sciences. - Minimum SAT scores of 600 math and 530 verbal/critical reading OR - ACT scores of 26 math and 22 English. Completion of the writing section is also required. - Timely submission of the Marian University application ​​​plus​​ the Marian University - IUPUI DDEP application. Note that these are minimums, and we strongly encourage additional preparation in math and science. In particular, students should make every effort to take physics in high school. Mathematically, both degree programs begin with calculus I. This program is not a fit for students not prepared to study calculus in the first semester. Understand that applying to, and being accepted to Marian University does not guarantee acceptance into the DDEP. A student whose scores fall below those listed here may still be accepted into the university, but not into this program. [-]

Bachelor Pre-Engineering

California State University Bakersfield
Campus Full time 2 - 3 years September 2017 USA Bakersfield

CSU Bakersfield offers a pre-engineering program. Pre-engineering students attend CSUB for 2-3 years then transfer to an engineering school where they complete the upper-division curriculum and where they will graduate with a degree in engineering. [+]

Best Bachelors in Engineering in USA 2017. CSU Bakersfield offers a pre-engineering program. Pre-engineering students attend CSUB for 2-3 years then transfer to an engineering school where they complete the upper-division curriculum and where they will graduate with a degree in engineering. The CSUB pre-engineering program is a generic program, suitable for transfer to any engineering school and into any field of engineering. While transfer to other CSU schools are the most seamless, many CSUB students transfer to UC schools, to private schools, and to schools all over the country. Admission There are no special admission requirements or procedures to enter the CSUB pre-engineering program. Like all CSUB students, you apply for admission using the CSU Mentor site, students must obey all university rules regarding admission deadlines. Once admitted, you can be in the pre-engineering program merely by seeing a pre-engineering advisor and taking the recommended classes. Application Process for First-Time Freshmen Check to be sure you meet the Admission Requirements for First-Time Freshmen. Submit an application to CSU Bakersfield through CSUMentor, the online admissions portal for all CSU campuses. A $55 non-refundable application filing fee is required, but fee waivers are available if you qualify. Students interested in applying to the Educational Opportunity Program, (EOP) should complete their EOP application on CSUMentor after they have submitted their application for admission. You will receive an email from CSUB Admissions and Records acknowledging receipt of your application along with your specific CSUB ID number and login instructions to your myCSUB account. Pay particular attention to any outstanding "To-Do" list items that you need to complete and/or submit. Admission to the University will be contingent upon meeting all eligibility requirements as well as meeting all deadlines and documents to be submitted. Submit requested documents on time to the University. Check your Admissions Status online at myCSUB regularly for any updates. Once a decision is made, it will be reflected on your account, and you will receive a letter with further information such as signing up for an Orientation. Be sure to monitor your "To-Do" list regularly even after you have been admitted; there may be additional documents or requirements you will need to submit such as your final high school transcript once you graduate. Do not sent documents or correspondence unless required. Important: make sure your email address and other contact information are correct. CSU Bakersfield uses email as one of the main forms of communication. No campus impaction at the First-Time Freshman level. Open to all CSU eligible applicants. Program impaction applies to the Nursing Program. Application Filing Period The initial application filing period for first-time freshmen and transfer applicants is October 1st - November 30th of the previous year for fall term, June 1st - 20th of the previous year for winter term, and August 1st - 31st of the previous year for spring term. Post Baccalaureate and Graduate applicants must check with the specific desired graduate department for any deadlines the program may have. Current application filing statuses may differ from each CSU campus. Applicants are encouraged to apply early during available filing periods, pay close attention to the requirements for admission, as well as the deadlines for submitting an application. CSUB Advantages and Disadvantages The primary advantage of CSUB is for Kern County residents, they can make progress towards an engineering degree without long commutes or having to move out of Kern County. Also, CSUB engineering classes are generally fairly small and students often receive a more personalized education than if they were at a larger school. The largest disadvantage is that students will be graduating from another school and will have to satisfy all that school's graduation requirements, which often includes lower division courses unavailable at CSUB. This means that transfer students typically require one or two more quarters to earn their degree compared to students attending the engineering school throughout their college career. Cost of Attendance Cost of Attendance (COA) is a figure calculated annually by financial aid offices that represents an estimate of the total cost (including tuition, fees, books & supplies, room & board, transportation, and misc. personal expenses) for a full-time student to attend their university during the academic year. Separate COA figures are determined for students living On-Campus, Off-Campus, and With Parents. The COA can help families budget for all the expenses to attend college. It is important to note that only a portion of the total COA is paid directly to the University. Additionally, the COA is a standardized estimate, and may be adjusted for students on a case-by-case basis with proper documentation. The cost of attendance is an important factor in determining student financial aid eligibility. The Expected Family Contribution (EFC), which is calculated from the FAFSA data by the federal processor, represents the amount the student and his or her family are expected to contribute to the COA. The EFC is subtracted from the COA to determine the student's financial Need. Financial aid is then awarded to help offset the student's COA. If the financial aid is not enough to cover the Need, then the remaining amount is considered Unmet Need. It is important to note that a student is not required to have financial Need to be eligible to receive Unsubsidized Federal Stafford Loans, PLUS loans, or merit-based scholarships. [-]

Bachelor of Science in Engineering

The University of Tennessee at Martin
Campus Full time September 2017 USA Martin

The Department of Engineering College of Engineering and Natural Sciences at the University of Tennessee at Martin offers a Bachelor of Science in [+]

The Department of Engineering College of Engineering and Natural Sciences at the University of Tennessee at Martin offers a Bachelor of Science in Engineering The program - incorporates engineering design and competitive teamwork throughout the curriculum - provides small class sizes, personalized attention from faculty and staff, and the opportunity for a hands-on engineering educational experience; - is implemented with a course schedule that is taylored to the needs of the individual student, with personalized advising throughout the educational experience. Concentrations Civil Engineering Civil Engineering designs and supervises the construction of the physical and naturally built environment, including works such as bridges, roads, canals, dams, buildings, airports, tunnels, and other large facilities. Civil engineering is one of the oldest engineering disciplines which can be categorized into several sub-disciplines including construction, environmental, transportation, structural, geotechnical, and water resource engineering. Our graduates work for government, state, or local municipal agencies or for private engineering firms. Electrical Engineering Electrical engineering is an engineering discipline that designs, develops, tests, and supervises the manufacture of electronic and electrical equipment, including electric motors, lighting, wiring in buildings, radars, computers, consumer electronics, aircrafts, and telephones. Currently, many electrical engineers also work in areas of computer design and programming. Electrical engineering can be categorized into several sub-disciplines including power, control, signal processing, telecommunications, electronic, and electromagnetic engineering. Our graduates work for local and regional power companies, defense contractors, electronic design firms or in manufacturing-related companies.   Industrial Engineering Industrial engineering is an engineering discipline that studies and determines the most effective ways to maximize efficiency of production and services, including financial planning and cost analysis, management of organization, product requirements, manufacturing design, and information systems. Similar fields include Operations Research, Management Science, Financial Engineering, Supply Chain, Manufacturing Engineering, and Engineering Management. Our graduates work for manufacturing companies at both the regional and national levels. Mechanical Engineering Mechanical Engineering is an engineering discipline that designs, develops, manufactures, and tests machines, engines, tools, and mechanical systems, including internal combustion engines, steam and gas turbines, machine tools, motor vehicles, aircraft, robots, and air-conditioning equipment. Mechanical engineering is one of broadest of engineering disciplines. It requires a solid understanding of core concepts including mechanics, kinematics, thermodynamics and energy. Our graduates work for defense contractors, manufacturing firms, automobile designs and supplies, and private engineering firms. [-]

Bachelor of Engineering

University of Southern Indiana
Campus Full time January 2017 USA Evansville

The degree programs offered through the Department of Engineering include a foundation in mathematics, physics, chemistry, and communications upon which the technical education is built. To complement the student's area of technical specialization, the curricula contain technical writing, public speaking, social science, and humanities. [+]

Best Bachelors in Engineering in USA 2017. A flexible, well-rounded program of study. The degree programs offered through the Department of Engineering include a foundation in mathematics, physics, chemistry, and communications upon which the technical education is built. To complement the student's area of technical specialization, the curricula contain technical writing, public speaking, social science, and humanities. The Bachelor of Science in Engineering program is accredited by the Engineering Accreditation Commission of ABET, www.abet.org. The Industrial Supervision program includes business and management courses to prepare graduates for supervisory positions. The Advanced Manufacturing Program is a technology-based degree that prepares students for positions in high tech manufacturing. Co-op Experience A cooperative education program is available for interested students. The co-op experience is designed to assist the student in developing an understanding of human relationships and in learning to work with others as a member of an engineering team. Individual growth is enhanced by the realization that, in addition to demonstrating theoretical knowledge, one is also learning to become an integral part of the working community and developing an awareness of the interrelationship between the academic and professional worlds. On the job and at the University, the co-op student obtains first-hand knowledge of professional practices, expectancies, and opportunities. At the same time, the student is offered a realistic test of career interest and aptitude. Participation in this program enables the student to make a more intelligent selection of a position after graduation. Majors Advanced Manufacturing Engineering with the following emphasis areas Civil Electrical and Computer Industrial and Manufacturing Mechanical Mechatronics Industrial Supervision Programme description [-]

Bachelor in Mechanical Engineering

West Virginia University | Institute of Technology
Campus Full time Part time 4 years September 2017 USA Montgomery + 1 more

©Our <strong>ABET accredited program</strong> is structured to develop these skills by offering foundation courses in mechanical engineering such as thermodynamics, machine design, heat transfer, mechanical vibrations, control systems and materials science. [+]

Why study mechanical engineering at WVU Tech? Our program offers an excellent balance of analytical and applied coursework with an emphasis on practice-oriented lab experience. Design and laboratory experience are integrated throughout the program of study. Labs are equipped with traditional and modern computer-linked test equipment that prepare our graduates to effectively face the challenges of contemporary industry. Students that do well in math and physics tend to enjoy this program. How is our program different from similar programs at other universities? The program requires 134 semester hours of rigorous academic work for graduation. Students take a series of sequential courses in several areas and develop skills necessary to be successful mechanical engineers. The department also provides a path for a 2+2 aerospace engineering degree from WVU that leads to a Bachelor of Science in Aerospace Engineering. Under this arrangement, a student interested in a BSAE degree from WVU, can start as a freshman at WVU Tech in mechanical engineering and complete the appropriate courses in four semesters before moving on to WVU. What co-op opportunities or internships are available? Hands-on experience comes in the form of the co-op program, internships and on-campus work study jobs. Students may start in their sophomore year to work and attend school alternating semesters for a maximum of five semesters of co-op or three semesters of internship under the guidance of a full-time program coordinator. The program also includes a mandatory, senior level, two-semester long design project (ME Systems Design I & II) in which students investigate current topics and build and/or write research reports on their work, some of which have been published in national technical journals. What opportunities are available for graduates? A degree in mechanical engineering prepares students for a variety of positions in industry, government and education. Recent graduates have pursued careers in large and small, national and international companies and the positions include: plant engineer, field engineer and design engineer. Graduates have also successfully completed graduate degrees. In order to prepare our students for real-world challenges, the mechanical engineering department at WVU Tech offers a practice-oriented education with a strong emphasis on hands-on experience. Our ABET accredited program is structured to develop these skills by offering foundation courses in mechanical engineering such as thermodynamics, machine design, heat transfer, mechanical vibrations, control systems and materials science. Courses such as English, mathematics, physics, computer science, the humanities and general engineering science supplement the mechanical engineering curriculum and technical electives are offered in energy and mechanical systems, enabling students to pursue advanced studies in their areas of interest. Engineers are builders and need to develop strong analytical and design skills. Our curriculum is structured so that meaningful design experience is included in several of the required and elective courses. Mechanical engineering students develop these skills systematically by successfully completing a series of sequential courses in statics, dynamics, mechanics of materials, fluid mechanics, dynamics of machinery, machine design and mechanical engineering systems design. Open-ended problems and multiple-solution design concepts are incorporated across the curriculum involving design assignments in thermal and mechanical systems. This process starts with the Mechanics of Materials course in the sophomore year and culminates with the capstone design courses (ME Systems Design I and II) at the end of the senior year. The capstone design courses provide students with an opportunity to apply previously acquired knowledge in areas that include mathematics, science, engineering, humanities, communications, ethics and economics. Our faculty also recognize the dynamic nature of modern technology in which changes are inevitable and the need for our graduates to be well-prepared to meet these challenges. The mechanical engineering curriculum is under constant review and modifications are introduced continuously in response to the changing needs of the industry and the job market. Program Objectives Consistent with the mission and the goals stated above and with input from the constituents of the mechanical engineering program, the following educational objectives have been adopted by the department. Graduates of the WVU Tech Mechanical Engineering program will: be successful in the practice of mechanical engineering advance to positions of technical and/or managerial leadership be successful in graduate studies, if they choose to pursue advanced education be able to obtain professional registration, if they choose to, after appropriate professional experience. be dedicated to life-long learning in their professional career Program Outcomes Consistent with the mission of WVU Tech and in compliance with ABET criteria, the Mechanical Engineering program at WVU Tech emphasizes the development of a well-rounded engineer with a strong background in mathematics, sciences, engineering analysis and design. Graduates of this program will be able to practice engineering as professionals or pursue graduate education and advanced studies. Upon graduation, they will be able to demonstrate: A knowledge of mathematics, sciences and fundamentals of engineering necessary for a successful career in engineering practice The ability to identify, formulate and analyze problems and develop solutions based on standard engineering norms and practices The ability to apply their analytical skills and creativity to investigate the adequacy of a design and to make design improvements where necessary The ability to conduct mechanical measurements; collect, evaluate and present experimental results; and design and build experiments to investigate engineering phenomena, including the analysis and interpretation of data A knowledge of and ability to use standard software and computing tools appropriate to their work A knowledge of safety practices in experimental work A knowledge of environmental requirements and constraints on engineering practice A knowledge and ability to design a mechanical system, component or process to meet desired needs The ability to function as a productive member of multi-disciplinary teams A knowledge of professional and ethical codes of conduct and responsibilities The ability to effectively communicate in oral and written forms A knowledge of the impact of engineering solutions in a global and societal context as a result of having a broad education The ability to recognize the need for and engage in life-long learning The ability to demonstrate a knowledge of contemporary issues The ability to work professionally in thermal and mechanical systems areas including the design and realization of such systems. 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Bachelor in Engineering (Combined Degree)

University of Redlands
Campus Full time September 2017 USA New York

In engineering, you put the laws of nature to use—building a smarter phone, a lighter jet, a longer-lived battery, or even a more efficient company. The study of engineering begins with a foundation in mathematics and the natural sciences. Through the University of Redlands, you can lay that foundation while enjoying the small classes, personalized education, and diverse opportunities that Redlands is known for and developing... [+]

Best Bachelors in Engineering in USA 2017. Bachelor in Engineering (Combined Degree) In engineering, you put the laws of nature to use—building a smarter phone, a lighter jet, a longer-lived battery, or even a more efficient company. The study of engineering begins with a foundation in mathematics and the natural sciences. Through the University of Redlands, you can lay that foundation while enjoying the small classes, personalized education, and diverse opportunities that Redlands is known for and developing the breadth of liberal arts knowledge and skills that are essential for a rewarding life and a successful career. Either you can pursue a master's in engineering after earning a bachelor's degree in one of the sciences, or you can expedite your education by participating in one of our engineering combined-degree programs. A strong student can complete a Redlands major and general education requirements while taking pre-engineering courses, all in three years. The program adviser can help you plan your schedule accordingly. Provided that you maintained high grades in the pre-engineering courses, you’d enroll at Columbia or Washington University’s School of Engineering for the next two years (financial aid and housing are arranged through Columbia or Washington). At the end of the five years, you’d graduate with degrees from both institutions. You are free to pair any University of Redlands undergraduate major with any engineering major; however, the pre-engineering requirements for most sub-fields are most compatible with the physics B.A. or individualized Johnston emphases. See the full list of requirements for the various engineering majors at Columbia University and Washington University. Advice to Incoming Students Interested in Engineering If you’re an entering student who’s interested in the engineering combined-degree plan, it is important that you take or place out of General Physics I and Calculus I your first semester, get at least a B (3.0) in them, and contact the program director, Eric Hill, prior to Spring registration so he can work with you to identify appropriate courses. Please note that General Physics I is offered during only the FALL semester, so a student would have to wait an entire year for it to be offered again. Also, only one section is offered (MWF 11-12:20 plus a choice of lab times). If this conflicts with your current First Year Seminar, your advisor and the program director, Eric Hill, can work with you to determine whether changing seminars would be recommended. If it is full at time of registration, contact the program director and we will do our best to accommodate all qualified students. Calculus I is a co-requisite for General Physics I, but we strongly encourage you to enroll in the highest calculus course for which you are qualified since Calculus II and III are core pre-engineering courses (and required for General Physics II and III which are also core pre-engineering courses.) If you place into Integrated Calculus I (MATH 118) or lower, you should contact the program director to discuss options; the soonest you could take General Physics I and II would be next year (or you may take comparable summer courses.) Suggested first-year courses for students interested in engineering: Fall First-year seminar General Physics I (PHYS 231) AND lab (PHYS231L) Highest possible Calculus class (at least MATH 121) LAF* Spring General Physics II (PHYS 232) AND lab Highest possible Calculus class (at least MATH 122) LAF LAF An alternative path into engineering (outside of the combined-degree plan) is earning a strong science degree and then pursuing an MS in engineering. The courses required for the combined-degree plan are still highly recommended for this option; the program director can help you choose appropriate courses for this option. *If you’re interested in Chemical or Biomedical Engineering, you should take General Chemistry I (CHEM 131 and 131L) your first semester; otherwise, this may be postponed a year or two. Why participate in a combined-degree program rather than going straight for an engineering bachelors? Few small schools can afford to have strong engineering departments of their own, and few large schools can offer the personalized education that a small school can. So a combined-degree program allows you to go to a small school for three years, take your introductory math and science courses in classes of 20 to 40 instead of 200 to 400, learn from professors rather than graduate students, and develop the ‘soft’ skills that a liberal arts education is known for but are actually invaluable to scientists and engineers. But it also allows you to spend two years at a high-caliber school of engineering. [-]

Bachelor in: Business Administration, Engineering, Biology (2+2 Programs)

Sinclair Community College
Campus Full time 2 - 4 years January 2017 USA Dayton

Sinclair Community College provides international students with an affordable way to earn a Bachelor’s Degree. With 25 university parallel programs, or 2 + 2 programs, students study at Sinclair for two years to earn approximately 60 credit hours, and then go on to a university for an additional two years to complete a Bachelor’s degree. [+]

Earn a Bachelor’s Degree and Save Money by Starting at Sinclair Community College Sinclair Community College provides international students with an affordable way to earn a Bachelor’s Degree. With 25 university parallel programs, or 2 + 2 programs, students study at Sinclair for two years to earn approximately 60 credit hours, and then go on to a university for an additional two years to complete a Bachelor’s degree. Students complete a Bachelor’s degree in the same amount of time it would have taken them had they gone directly to the university, but can save tens of thousands of dollars due to Sinclair’s affordable tuition. Some of the most popular university parallel programs at Sinclair for international students are: Business Administration, Engineering, Biology, Mathematics, Music, Political Science, Psychology and Theatre Technology. After completing two years at Sinclair, student can directly transfer to any of these universities, with which Sinclair Community College has transfer agreements: - University of Dayton - Wright State University - Miami University - University of Cincinnati - Ohio University In addition, our international students have successfully transferred to: - Purdue University - Georgia Institute of Technology - University of North Carolina - Brigham Young University - SUNY – Stony Brook - Kansas State University [-]

Bachelor in Dual Engineering

Greenville College
Campus Full time September 2017 USA Greenville

The Engineering Dual Degree Partnership results in 2 degrees: a bachelor of arts in physics or chemistry from GC and a bachelor of science in engineering from a partnership school. Our Engineering dual degree students have seen great success at two of the best engineering schools in the country, with 98% of students successfully completing their engineering degree with our university partners. [+]

Best Bachelors in Engineering in USA 2017. B.A. Physics or Chemistry + B.S. Engineering Engineering Dual Degree Overview For nearly half a century, Greenville College has offered an Engineering dual degree program through partnerships with two of the best engineering schools in the nation: the University of Illinois in Champaign-Urbana and Washington University in St. Louis. The Engineering Dual Degree Partnership results in 2 degrees: a bachelor of arts in physics or chemistry from GC and a bachelor of science in engineering from a partnership school. Our Engineering dual degree students have seen great success at two of the best engineering schools in the country, with 98% of students successfully completing their engineering degree with our university partners. How The Engineering Dual Degree Partnership Works With the dual degree partnership, you’ll receive a high quality education in science, technology, engineering and math (STEM) with an emphasis on Greenville College values such as spiritual development, global awareness, Christian character and service, and creative and critical thinking. You will spend three years immersed in STEM courses at Greenville College while rounding out your education with courses like literature, psychology and religion. Successful completion of Greenville’s program, with an appropriate GPA, guarantees admission to Washington University St. Louis or University of Illinois for the remaining two years. The Engineering Dual Degree Partnership Offers: Early access to advanced instrumentation and research opportunities Individual attention from professors who strive to impart knowledge as well as passion in their students Liberal arts education with courses like literature, history, communications, religion and philosophy Student activities like athletics, music, theater, student government, campus ministries, mission trips, and more! Opportunities for Engineering Dual Degree Graduates The Greenville College Engineering Dual Degree program leads to nationally and internationally recognized engineering degrees in: Aerospace Engineering Agricultural Engineering Bioengineering Biomedical Engineering Chemical Engineering Civil and Environmental Engineering Electrical Engineering Engineering Physics General Engineering Industrial Engineering Materials Science Engineering Mechanical Engineering Systems Science & Engineering [-]

Bachelor in Applied Engineering and Technology

Eastern Illinois University
Campus Full time September 2017 USA Charleston

Technology is a field of study designed to prepare technical and/or management oriented professionals for employment in business, industry, education, and government. Individuals [+]

Technology is a field of study designed to prepare technical and/or management oriented professionals for employment in business, industry, education, and government. Individuals interested in working with people, materials, and processes will find Applied Engineering and Technology provides an excellent foundation for a challenging career. An Applied Engineering and Technology major must be capable of succeeding in the areas of physical science and mathematics as well as in the technological and applied areas. Applied Engineering and Technology majors are typically highly self-motivated and find challenge in diverse academic areas.

The Applied Engineering and Technology program at Eastern Illinois University is one of four in Illinois and 103 programs in the United States accredited by the Association of Technology, Management, and Applied Engineering at the Baccalaureate level.... [-]


Mechanical Engineering

The University of Illinois at Chicago
Campus Full time Part time January 2017 USA Chicago + 1 more

Mechanical engineering is essential to a wide range of activities that include the design, development, manufacture, management, and control of engineering systems, subsystems, and their components. Typically mechanical engineers are employed in a wide range of industries, such as manufacturing, power, aerospace, automotive, materials, and processing industries. [+]

Best Bachelors in Engineering in USA 2017. BS in Mechanical Engineering Mechanical engineering is essential to a wide range of activities that include the design, development, manufacture, management, and control of engineering systems, subsystems, and their components. Typically mechanical engineers are employed in a wide range of industries, such as manufacturing, power, aerospace, automotive, materials, and processing industries. As a result of the recent rapid expansion of technology, mechanical engineers also have become increasingly involved in computer-aided design and visualization; robotics; bioengineering; environmental engineering; solar, wind, and ocean energy sources; and space exploration. The breadth of the field provides the graduate with many possibilities for a satisfying career. The program has been developed to provide students with a broad base on which to build a successful mechanical engineering career. Courses are offered in the mechanical design and thermal fluid science fields. Topics covered in mechanical design include kinematics, mechanisms, stress analysis, dynamic systems, material properties, CAD/CAM, dynamics, vibrations, mechatronics, microelectrical mechanical systems (MEMS), and control theory. Courses offered in the thermal fluid sciences include thermodynamics, heat transfer, and combustion. These courses provide a basis for all types of power applications, including internal combustion engines, nuclear reactors, heating systems, refrigeration systems, and solar power. The program also emphasizes computer applications, professional ethics, communication skills, ability to work in a multidisciplinary team, awareness of broad education, lifelong learning, and contemporary issues. [-]