Georgia Institute of Technology
The Georgia School of Technology was founded in 1885, opening their doors in 1888 with an enrollment of 84 students. The school was a sign that the South was shifting from an agricultural to an industrial economy. At first, the school was a narrowly focused trade school, but grew over a 50 year span into a technological university that had achieved regional recognition. Because of the school's growth, the name was changed to the Georgia Institute of Technology in 1948.
In 1952, women were admitted to the college and in 1961, Georgia Tech became the first university in the Deep South to admit African-American students without receiving a court order. Throughout its history, Georgia Tech has focused efforts on preparing students not only in academics but with a focus on strong work ethic to solve real-world solutions with a global focus. Recently, the school has been recognized as a national leader in managing the global transition from industry to information.
U.S. News & World Report has ranked Georgia Tech seventh among public universities and the College of Engineering is ranked in the top five on a consistent basis. In 2014, the school was ranked first among the smartest public colleges by Business Insider magazine. For more than two decades, the industrial engineering program has been ranked first and eight of the undergraduate engineering programs, as well as all 11 graduate programs are ranked in the top 10 along with the graduate computer science program. The Guardian's QS World University Rankings listed the College of Architecture as seventh in the United States and 26th in the world for 2015.
Georgia Institute of Technology Accreditation Details
Georgia Institute of Technology is accredited by the Southern Association of Colleges and Schools Commission on Colleges. Specific programs at Georgia Tech may also be accredited by agencies and affiliations responsible for accrediting certain types of programs.
Georgia Institute of Technology Application Requirements
Students who wish to enter Georgia Tech must meet specific standards including:
- Academic performance
- Standardized test scores
- Extracurricular involvement
- School report
- SAT subject tests
- AP/IB scores
Students must submit a personal essay and recommendations as part of the application. Students for whom English is a second language may be required to submit TOEFL/IELTS examination scores. They may also be required to submit to an online interview.
Graduate students are required to submit three letters of recommendation in an online format, official transcripts from any college or university attended, test scores and verification that they are authorized to be in the United States. Other application documents may be required by the specific program the student chooses. It is recommended that all students discuss the requirements with an admissions counselor before applying.
Georgia Institute of Technology Tuition and Financial Aid
Full-time undergraduate rates are $13,996 per year for out-of-state students and $4,906 for in-state students. Graduate fees range from $561 per credit hour to $1.764 per credit hour. Financial aid is available in the form of grants, scholarships and student loans. In addition, students may qualify for work study positions. In order to qualify for financial aid, students must complete the Free Application for Federal Student Aid (FAFSA). Georgia Tech also accepts veterans benefits and employer-funded tuition.
Georgia Institute of Technology Online Degrees Available
Aerospace Engineering
Georgia Tech offers master's level degrees in Aerospace Engineering designed to provide students the skills and knowledge necessary to obtain positions related to advanced aerospace system design. Students are also provided an education in aerospace development, manufacture, maintenance and operation. The degree is available in both a designated and undesignated degree with the designated degree requiring students to complete coursework required for the bachelor's level degree in aerospace engineering.
Computational Science and Engineering
Students with a background in engineering and science foundations will benefit from the master's level Computational Science and Engineering degree. Students are provided technical specialization courses that enhance their domain expertise. In addition, students are exposed to other disciplines that teach how common CSE concepts are utilized and applied in different domains.
Electrical and Computer Engineering
The Master of Science in Electrical and Computer Engineering provides students with the technical knowledge necessary to be competitive in the high tech computer development industry. The program provides insight into project deadlines, technical problems and the creative invention necessary to succeed in the ever-changing, fast-paced world of technology.
Industrial Engineering
Students enrolled in the Master of Science in Industrial Engineering are able to develop insight into the complexity of problem domains and what is required for sophisticated problem-solving methodologies. Students are provided the skills and knowledge to become the human-decision maker in the process of developing complex systems and to become a benefactor of the analysis provided by technology.
Mechanical Engineering
Students in the Master of Science in Mechanical Engineering learn the skills and knowledge necessary to perform advanced analysis in order to solve complex problems. Students learn how to apply innovation techniques and develop the skills necessary to the process of research. Students are also provided insight into how to formulate problems and to integrate information while working collaboratively and communicating effectively.
Medical Physics
The medical physics degree is available online with all courses and some electives offered through distance learning. Lectures are recorded during classroom time, including information included on white boards, overheads and the student interaction with the professor. In addition, students are provided other tools such as Power Point presentations that add to the learning process. The Medical Physics program prepares students to apply physical principles to medicine in order to diagnose and treat disease.
Operations Research
Operations Research provides students with the methods used to arrive at optimal decisions related to complex problems. Students are provided the skills and knowledge to develop the best solutions to a problem using mathematical equations in order to optimize the performance of a system. Graduates are prepared for careers in operations using theory and practice, combining traditional coursework in deterministic and stochastic operations research. Electives in statistics and data analytics prepare those students who wish to advance to the Ph.D. level.
Georgia Institute of Technology has been a forerunner in technology education for more than 130 years. With advanced degrees available in a fully online format, students who have work, family and social obligations that may be obstacles to continuing education may earn their degree in a flexible format.