Bachelor's Degree in Engineering & Technology in USA

Compare Bachelor Programs in Engineering & Technology in USA 2017

Engineering & Technology

A bachelor's degree is a hallmark of higher education. It is given to those who dedicate three to seven years studying a specific program. A bachelor's degree can be earned in a variety of disciplines in the arts and sciences.

Bachelor’s in Engineering are concerned with the practical applications of the advancements in scientific, economic and social theories. It follows a process of observation, design, implementation and maintenance of solutions for all kinds of problems and issues. The discipline encompasses a great variety of fields and students are bound to find a degree they like.

The United States of America is a large country in North America, often referred to as the "USA", the "US", the "United States", "America", or simply "the States". American colleges are funded by "tuition" charged to the student, which is often quite expensive, very commonly reaching into the tens of thousands of dollars per year.

Top Bachelor Programs in Engineering & Technology in USA 2017

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Bachelor in Management Information Systems

University of Tampa - Sykes College of Business
Campus Full time 4 years September 2017 USA Tampa

Management Information Systems (MIS) is a challenging field of study focused on integrating computer-based information technology solutions and business processes to meet the information needs of businesses and other enterprises. [+]

Management Information Systems (MIS) is a challenging field of study focused on integrating computer-based information technology solutions and business processes to meet the information needs of businesses and other enterprises. The computer-based information technology is viewed as an instrument for generating, processing and distributing information. While computers are the tool for this field, we equip students to be the real evaluators, creating efficiency and value within organizations.

Our graduates have a combination of strong technical and business skills, including oral and written communication, bridging the gap that often exists between business users of computer systems and technically-trained specialists. This combination of skills prepares our graduates to be leaders of the next generation of MIS professionals. It also feeds a demand for MIS professionals who are skilled in both computer technology and business. This demand is expected to grow rapidly in the next decade, according to the U.S. Department of Labor.... [-]


Bachelor in Pre-Computer Science

The University of Arizona
Campus Full time September 2017 USA Tucson

The CS department offers a quality, student-centered experience. Our undergraduate and graduate curricula provide a timely and well-rounded view of the field, with special emphasis on the practical aspects of traditional mainstream areas of computer science: algorithms, programming languages, operating systems, distributed computing, networks, databases, and theory of computing. We also offer courses in several subfields including graphics, computer vision, and the software aspects of computer architecture. [+]

The CS department offers a quality, student-centered experience. Our undergraduate and graduate curricula provide a timely and well-rounded view of the field, with special emphasis on the practical aspects of traditional mainstream areas of computer science: algorithms, programming languages, operating systems, distributed computing, networks, databases, and theory of computing. We also offer courses in several subfields including graphics, computer vision, and the software aspects of computer architecture. Potential Career Areas: programmers, managers, analysts, and security specialists, among other positions. This major is also excellent preparation for graduate studies in computer science or information science and technology, and it provides a marketable skill set to apply to further studies in linguistics, geography, and life sciences. [-]

Undergraduate Architecture Degrees

NewSchool of Architecture and Design
Campus Full time 4 - 5 years October 2017 USA San Diego

From teaching time-honored building traditions to sustainable and innovative technologies, the curriculum of this architecture bachelor degree program gives future architects the opportunity to earn a first professional degree accredited by the National Architectural Accrediting Board (NAAB). The Bachelor of Architecture will help students gain the education and credentials they need to pursue state licensure. Students will leave this program well-prepared for a position with an architecture or design firm. [+]

NewSchool offers two undergraduate programs in Architecture. The Bachelor of Architecture is a five year NAAB accredited program that will prepare you for pursuing architectural licensure in the United States and the Bachelor of Arts in Architecture is a four year degree program that will give you a broad foundation for the architecture field.

Bachelor of Architecture

From teaching time-honored building traditions to sustainable and innovative technologies, the curriculum of this architecture bachelor degree program gives future architects the opportunity to earn a first professional degree accredited by the National Architectural Accrediting Board (NAAB). The Bachelor of Architecture will help students gain the education and credentials they need to pursue state licensure. Students will leave this program well-prepared for a position with an architecture or design firm. ... [-]


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 Applied Computing

Allegheny College
Campus Full time September 2017 USA Meadville

The science of computing extends far beyond hardware and software questions. Allegheny’s applied computing majors understand the theories and concepts behind the technology, and there’s almost no limit to the ways in which this broad-based knowledge can be adapted. [+]

Best Bachelors in Engineering & Technology in USA 2017. Bachelor in Applied Computing The science of computing extends far beyond hardware and software questions. Allegheny’s applied computing majors understand the theories and concepts behind the technology, and there’s almost no limit to the ways in which this broad-based knowledge can be adapted. The program is designed to provide a solid basis in the principles of the discipline combined with practical experience in software systems design, implementation and analysis. It begins with a breadth-first introduction to computing, including programming and data structures, accompanied by topics from various programming languages, operating systems, and analysis of algorithms. The introductory courses are followed by a set of “core courses” specifically tailored to capture the essence of the discipline as it relates to the emphasis of the particular program. Students then select from available advanced courses and applications courses to design a program meeting their specific needs. The capstone of the major program is a junior year research and project methods course followed by a senior thesis or project. Double and student-designed majors are available and encouraged Major in Applied Computing 48 semester hours in computer science including: three basic courses (Introduction to Computer Science I and II and Discrete Mathematics); four core courses (Computer Organization, Programming Languages, Analysis of Algorithms, and Software Design); one advanced course in Computer Architecture, Compiler Design, or Operating Systems; one applications course in Human-Computer Interaction, Databases, Networks, or Artificial Intelligence; an Internship Seminar and Internship; and an economics and a mathematics unit. Career Data College-wide, 95 percent of Allegheny Graduates who seek jobs find employment within five months of commencement. The most popular fields with advanced degrees: university/college teaching/research, application consultant, systems engineer, research computer scientist [-]

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. [-]

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 & Technology 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's in Computer Science

Eastern Mennonite University
Campus Full time 4 years September 2017 USA Harrisonburg

EMU’s computer science program seeks to produce skilled computing professionals with a respect for the cultural and social impact of computing technologies in our modern global community. [+]

Computer Science EMU’s computer science program seeks to produce skilled computing professionals with a respect for the cultural and social impact of computing technologies in our modern global community. The entire curriculum is designed to meet the ACM 2013 Curriculum guidelines. The department is working with the Institute for Certification of Computing Professionals to offer one of two possible certifications upon completion of either degree and successful completion of the CS2013 exam. Students who score 50% or higher on both parts of the exam qualify for the ICCP Certified Computer Science Associate credential. Students who score 70% or higher qualify for the ICCP Certified Computer Scientist – mastery level. Based on Spring 2015 Beta test results, most students who finish the BACS program will be capable of qualifying for the Certified Computer Science Associate credential and those who finish the BSCS program will be capable of qualifying for the Certified Computer Scientist – mastery level. About Our Computer Science Program The computer science major at EMU is designed to be robust and flexible enough to meet the needs of a diverse set of students. Each student will create a custom plan of study (with approval of the faculty) which usually includes a minor or second major in another field, as computer science is an applied field. Examples of minors and second majors include: The combination of mathematics and computer science provides an excellent background for graduate study in either field. Those interested in the efficient and effective use computing technology in a business environment might combine computer science and one of the business fields. The emerging field of biomedical informatics is a combination of computer science and biology. Game programming and web application development are partially about technology and partially about interface design techniques taught as part of the digital media major. A computer science teaching endorsement for grades 6-12 is approved by the Virginia Department of Education when combined with an education licensure. With computing technology part of our everyday lives, it can be combined with almost any other field for those seeking a unique career path. Major Requirements The major consists of 9 hours of foundational mathematics courses, 12 hours of fundamental computer science courses, 18 hours of upper-level computer science courses, and 6 additional hours from computer science or related fields (with advisor approval) for a total of 45 hours. Students seeking a Bachelor of Science degree in Computer Science must take CS 320, CS 340, CS 420, MATH 192, MATH 170, MATH 240, and are encouraged to minor in mathematics. Students meeting the general major requirements but who do not complete the math and computer science courses required for a B.S. will receive a Bachelor of Arts in Computer Science. Mathematics Foundation Courses (9 hours) Principles from statistics, calculus, and discrete mathematics provide the foundation for many computer science methods and techniques. MATH 150 Elements of Calculus OR MATH 185 Calculus I MATH 130 Finite Mathematics OR MATH 170 Discrete Mathematics MATH 140 Elementary Statistics OR MATH 240 Statistics for Natural Sciences CS Fundamental Courses (12 hours) Fundamental knowledge of programming, networks, databases, architecture and operating systems used in modern computing environments provide a practical framework for studying more advanced topics. CS 220 Intermediate Programming: Java CS 230 Networking and Data Communications CS 250 Architecture and Operating Systems CS 270 Databases and Information Management CS Upper-level Courses (18 hours) Students select from a range of courses covering both theoretical and applied aspects of computing based on personal interest and career goals. CS 320 Data Structures CS 333 Topics in Computing (can be repeated) CS 340 Analysis of Algorithms CS 350 System Administration CS 370 Software Engineering CS 420 Programming Languages CS 470 Project Management CS 488 Internship CS 499 Independent Study/Research Internship opportunities are available through EMU’s Washington Community Scholar’s Center, organizations in the Harrisonburg area, and even EMU’s own Information Systems department. The department offers at least one “topics” course each year with the content selected based on the areas of interest of current students and faculty. The course may be taken for credit repeatedly since the content will vary from year to year. Topic examples include: theory of computation, numerical analysis, modeling and simulation, graphics, computer animation, computer vision, advanced algorithmic analysis, cryptography, parallel algorithms, artificial intelligence, robotics, hypermedia development, language translation systems, and functional programming. CS or Related Field Elective Courses (6 hours) These might be additional CS courses or from related fields to cover topics such as electronics, numerical computation, quantitative decision making, or media production. Minor in Computer Science The minor in computer science consists of 18 SH of computer science courses with at least 6 SH selected from the upper-level (300 or above) courses. CS 110 Introduction to Computer Science (3) CS 120 Introduction to Programming: Python (3) CS 220 Intermediate Programming: Java (3) CS 230 Networking and Data Communications (3) CS 250 Architecture and Operating Systems (3) CS 270 Databases and Information Management (3) CS 320 Data Structures (3) CS 333 Topics in Computing (3) (can be repeated) CS 340 Analysis of Algorithms (3) CS 350 System Administration (3) CS 370 Software Engineering (3) CS 420 Programming Languages (3) CS 470 Project Management (3) ACM student club The Association for Computing Machinery (ACM) student club at EMU is an informal gathering for students who are interesting in computers, coding, or programming. The club meets once a month for lunch during which time a guest speaker presents on a topic of interest. Past topics include: A discussion on Alan Turing and his contributions to the field of computing and mathematics A presentation by Bob Haskins from the telecommunication company Shentel A discussion on the current state of different areas of computer science including drones, houses and cars Working groups Working groups are student-led groups based around a common interest or theme. Current working groups include: Programming competitions Cell phone app design Outreach – recently hosted a One Hour of Code event EMU’s math and computer science faculty helped expand my thinking in life. Every professor I had was outstanding. Predicting outcomes, managing time, knowing what an ideal solution looks like, knowing when approximations are good enough, and understanding the pros and cons of the different methods of statistical analysis used in all fields of scientific research are just a few of the important life skills I learned. – Eric Brodersen, computer science grad [-]

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 & Technology 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 Management Information Systems

Eastern Illinois University
Campus Full time September 2017 USA Charleston

All businesses and organizations depend on information systems to organize and maintain the data needed for decision-making. The Management Information Systems (MIS) major prepares students to design, develop, and manage information systems within organizations. [+]

MIS majors develop a foundation of business knowledge and skills that is complemented by more in-depth study of information technology. Many majors choose to double major within the School of Business or choose a minor that enhances their career opportunities. This program offers excellent practical experience in a growing and always changing field. The MIS Major curriculum emphasizes: Excellent written and oral communication skills Analyzing and resolving problems Technical skills Creativity, with good design and layout skills Knowledge of Internet and network technologies Good people skills

Undergraduate Academic Requirements

- Grade Point Average(GPA): minimum 2.0 out of 4.0.... [-]


Bachelor of Computer Science

Lakeland University
Campus Full time September 2017 USA Plymouth

Work with a Faraday Cage. Learn to stay a step ahead of cyber criminals. Experiment with a 3D printer and robotics. Refurbish scrapped computers in our lab. Lakeland's computer science program is an all-encompassing foray into the ever-changing world of computers and how they work. Here, you won't focus on just programming, database or system analysis. You'll learn it all, with multiple classes that span all... [+]

Best Bachelors in Engineering & Technology in USA 2017. Work with a Faraday Cage. Learn to stay a step ahead of cyber criminals. Experiment with a 3D printer and robotics. Refurbish scrapped computers in our lab. Lakeland's computer science program is an all-encompassing foray into the ever-changing world of computers and how they work. Here, you won't focus on just programming, database or system analysis. You'll learn it all, with multiple classes that span all disciplines. “As a computer science student at Lakeland, you don't have to specialize,” says Cynthia Lindstrom, assistant professor of computer science, who has a doctorate in computing and information technology and has more than 20 years of corporate computer science experience. “In fact, you can't specialize here. You will be a generalist; you will know a little bit about everything. And that's what businesses are looking for today.” Land with a big company Recent Lakeland College computer science graduates have landed jobs at Briggs & Stratton and General Electric in Milwaukee, Kohler Co. in Kohler and The Manitowoc Company in Manitowoc, among many others. In addition, Lindstrom says, internships are a regular part of the program. “One of the best things students can put on their résumés is that they have actually worked, hands-on, with many of the companies in our area. We have numerous internships going on every term and during the summer, and we try to get our students internships that match their interests.” Computer Science at Lakeland One of Lakeland's newer and most popular classes is forensics, which involves the discovery and recovery of data – often as it relates to crime and cybercrime. This type of expertise is more and more valued, particularly in the areas of law enforcement and corporate law. That's where a Faraday Cage comes in. In a Faraday Cage, a computer is shielded from Wi-Fi signals and therefore can't be accessed or tampered with remotely. It's called a “computer seizure.” Information can't be retrieved or erased. It's a vital tool in legal cases and the use of a Faraday Cage allows computer evidence to hold up in court. “Companies expect our graduates to know how to prevent cybercrime,” says Lindstrom. “Forensics is a fun course and the students love it.” Recent Grads, Real Careers Listed below are just some of the careers Lakeland College computer science students from recent graduating classes have landed: IT assistant, Saco Polymers Programmer, Acuity Software QA engineer, JDA Systems analyst, GE Healthcare Quality technician, Eclipse Manufacturing Developer, Dynamic Inc. Lab assistant, Aerotech Technologist, Chevron IT help desk analyst, Orion Energy Systems IT support, Hudson Shipping Business analyst, The Manitowoc Company Listed below are some of the internships that Lakeland College students have landed during their stay at Lakeland College: Joe Van Horn Chevrolet - Plymouth, Wis. Lakeland College IT department - Sheboygan, Wis. Sauk County MIS Department - Baraboo, Wis. Computer Science Major Requirements CPS 200 - Programming I CPS 210 - Database Basics CPS 212 - Programming II CPS 362 - Introduction to Data Structures CPS 442 - Data Management, Warehousing, and Mining CPS 445 - Systems Analysis and Design (WI) MAT 250 - Discrete Mathematics [-]

Bachelor of Audio Production

SAE Institute UK
Campus Full time 24 months

Whether you want to work in a music production studio, in post production for film or TV, live sound, radio broadcasting, sound and plugin design, game sound or in one of the many different areas of the music business, the Audio Production degree programme supplies you with the practical skills and theoretical knowledge required for a successful career. [+]

Whether you want to work in a music production studio, in post production for film or TV, live sound, radio broadcasting, sound and plugin design, game sound or in one of the many different areas of the music business, the Audio Production degree programme supplies you with the practical skills and theoretical knowledge required for a successful career. Overview Our commitment to quality and our emphasis on hands-on education guarantees you will receive vast access to our world-class audio facilities and equipment and you will be provided with extensive opportunities to advance your skills to a professional level, developing a competitive edge as you complete your studies. SAE’s hands-on ethos ensures students are given individual studio time supported by one to one supervision. This enables you to bring the theory and practice together with your creativity in a variety of settings, from studio recording and mixing on large format consoles, to sound design and editing using industry standard applications and equipment. Some of the modules: Music Production This module presents students with opportunities to apply their theoretical knowledge, acquired in the 401 module, within a variety of production environments. During this module students are expected to complete a sound production adhering to a brief, while being creative through the use of sound editing and signal processing. Advanced Music Production, Sound for Film and Live Sound During this module students are exposed to advanced concepts and techniques relating to production and post-production for film and music projects. Students are also exposed to wider industry aspects and learn various analytical forms, as well as studying live sound engineering principles and techniques. Creative Media Practice This module aims to position the discipline specific knowledge and skills acquired during the first three modules of the programme within a wider industry, business and cultural context. The structure and operations of the culture industries are examined together with the meanings produced in the interplay between culture, cultural products and the consumer. The resulting implications for the pitching of creative media ideas and the marketing of creative media products are also considered. Students take their existing skills and adapt them for a range of markets, cultures and platforms, requiring students to understand other cultures and assimilate other disciplines into their practice [-]

Mechanical Engineering

Auburn Global
Campus Full time 4 years May 2017 USA Auburn

Mechanical engineering students take courses in several areas of engineering including: mechanics of rigid and deformable solids, thermo-fluid sciences, energy systems, dynamic systems and controls, design and manufacturing, materials, and electronics. [+]

Best Bachelors in Engineering & Technology in USA 2017. The curriculum in Mechanical Engineering focuses on the analysis, design, manufacturing, and maintenance of mechanical components and systems. Emphasis is placed on the fundamental concepts of engineering science and design needed in a variety of industries, including automotive, aerospace, biotechnology, material and chemical processing, microsystems and sensors, nanotechnology, machinery and robotics, pharmaceutical, energy production and distribution, heating and refrigeration, food production and processing, entertainment, pulp and paper, weapons systems, and many others. Mechanical engineering students take courses in several areas of engineering including: mechanics of rigid and deformable solids, thermo-fluid sciences, energy systems, dynamic systems and controls, design and manufacturing, materials, and electronics. The educational objectives of the Mechanical Engineering program are to produce graduates who will be: Engaged in careers where they apply knowledge of the fundamental subject areas of mechanical engineering science to the analysis, design, and manufacture of mechanical devices and systems. Proficient in a broad array of professional skills, including engineering software tools, oral and written communication, leadership, and teamwork. Aware of the importance of, and engage in the process of lifelong learning through self-study, continuing education courses, and graduate-level education. Knowledgeable in a broad range of contemporary issues, particularly as they impact the mechanical engineering profession. Students are able to concentrate on areas of special interest through technical elective courses taken in the senior year. In addition, specialized concentrations are offered in Automotive Engineering and in Pulp and Paper Engineering. Minors are offered in Tribology, Business Engineering and Technology, and in Automotive Engineering and Manufacturing. [-]

Bachelor of Chemical Engineering

University of Delaware
Campus Part time 4 years September 2017 USA Newark

Chemical engineering deals with the physical, chemical and biological transformations of matter that are the basis for making useful products. With its emphasis on problem-solving skills, quantitative analysis and teamwork, a chemical engineering education provides an excellent foundation for future careers in medicine, law, business, consulting and management. [+]

Endless Career Opportunities Chemical engineering deals with the physical, chemical and biological transformations of matter that are the basis for making useful products. With its emphasis on problem-solving skills, quantitative analysis and teamwork, a chemical engineering education provides an excellent foundation for future careers in medicine, law, business, consulting and management. Our undergraduates benefit from the active research programs in the department. Ongoing cutting‑edge research ensures that the content of the undergraduate program is constantly renewed and maintained at a challenging technical level and that discovery learning is integrated into the program. In addition, our undergraduates can work with faculty and graduate students as research assistants, for pay or credit during the academic year or the summer months. More than 75% of our graduating seniors have participated in some type of research experience. Areas of study Biochemical and biomedical engineering New energy technology Catalysis and reactions Colloids and interfaces Environmental chemical engineering Systems biology Materials, polymers, and composites Thermodynamics; and transport and separations What’s special about this program? UD’s Department of Chemical and Biomolecular Engineering is consistently ranked among the top ten chemical engineering departments in the US in most polls. Our objective is to cultivate graduates who will actively seek to provide technical, educational, public sector and/or business leadership in a rapidly changing, increasingly technological, global society and who recognize their professional responsibility toward the betterment of our community. Our faculty maintain an environment that enables students to identify and pursue their personal and professional goals within an innovative educational program that is rigorous and challenging as well as flexible and supportive. Get involved Alpha Omega Epsilon Deep Roots Outreach Program Engineers Without Borders National Society of Black Engineers Sigma Phi Delta Society for the Advancement of Materials and Processing Engineering Society of Asian Scientists and Engineers Society of Hispanic Professional Engineers Society of Women Engineers Tau Beta Pi American Institute of Chemical Engineers [-]

Bachelor’s Degree in Information Technology and Security Systems

Southern Technical College
Campus Full time 176  September 2017 USA Fort Myers

As technology continues to evolve, businesses will find an increasing need for qualified information technology professionals. With an information security degree from Southern Technical College, you can prepare for a challenging career that will keep you on your toes. These IT security degree programs are designed to help you become skilled in the identification of computer security vulnerabilities and develop a... [+]

Best Bachelors in Engineering & Technology in USA 2017. Bachelor’s Degree in Information Technology and Security Systems As technology continues to evolve, businesses will find an increasing need for qualified information technology professionals. With an information security degree from Southern Technical College, you can prepare for a challenging career that will keep you on your toes. These IT security degree programs are designed to help you become skilled in the identification of computer security vulnerabilities and develop a level of specialization in information security beyond what is provided by more general programs. This program gives you sufficient time to explore the issues and technologies of computer and network security, and to develop the skills needed to design or troubleshoot an organization’s security systems procedures, standards, protocols and policies, as well as ensure that operational security is in compliance with standards, policies and laws. Many core courses in our information security degree program apply directly to industry standard certifications, such as CompTIA, Microsoft, Cisco and Computer Forensics Investigation. In this program, you can study advanced project management, network security, security systems, computer forensics and investigations, advanced network forensics, client-server network operating systems, digital home technology integration, routers, and network security. If you’re looking at IT security degree programs, consider Southern Technical College. Our experienced instructors and dedicated staff members can help you take your career to the next level! How long will it take me to complete this program? The program is designed to take 176 weeks to complete. Of those that completed the program in 2013-2014, *% finished in 176 weeks. *Fewer than 10 students completed this program in 2013-14. The number who finished within the normal time has been withheld to preserve the confidentiality of the students. What are my chances of getting a job when I graduate? The job placement rate for students who completed this program is *%. *We are required to calculate this information; however, due to privacy concerns, we are unable to provide this data. [-]