Best Colleges for Physics undergraduate
25 Best Nuclear Engineering Degrees for 2016-2017
Welcome to the year 2125.
Look around you. What do you see? What don’t you see?
One thing you might not see, particularly if things remain the way they are right now, is oil. That’s right—oil. And that means a whole lot of other things too, specifically inexpensive gasoline to fuel, well, pretty much anything that moves!
According to recent estimates, at current production and consumption rates, the world has approximately 50 years of oil left. What happens when it’s all gone?
One response to this question comes from the field of nuclear engineering, a field that entered the scene relatively recently (1950s) and has grown exponentially in the last fifty years. One of the most important problems nuclear engineers are currently working on solving is how to produce sustainable, renewable energy from non-fossil-fuel sources. That might not work its way down to fueling your Prius, but it’s hard to overestimate the importance of this work!
But that’s not all nuclear engineers do. They are also experts in radiation technology, which has a wide variety of uses and application in the medical field, for instance, in nuclear medicine, advanced diagnostic imaging, and cancer treatment.
It’s hard to determine exactly what the future of nuclear engineering will look like in the years ahead, primarily because it is a relatively new field and our energy future is highly uncertain. One thing we do know, however, is that nuclear engineers are paid handsomely for their expertise; the median income in 2015 was $102, 950, according to the Bureau of Labor and Statistics.
If you want to be at the forefront of this fascinating and complex industry, you’re going to need a lot of training in some highly specialized areas of engineering science, and not just any old school will do.
That’s where we come in. We’ve compiled a list of the top 25 nuclear engineering schools with your needs in mind. The first thing we want to know, like you, is the bottom line: how much is this going to set me back? So we’ve included the annual tuition for each school right up front for you. We’ve also included our College Choice Score, which is computed based on each school’s reputation in the field and its return on investment. The end result is a list of schools that balance cost, reputation, and, ultimately, what they can do for you and your unique goals. You can’t go wrong with any of them, of course, but these schools are leading the way.
The rankings you’re about to read are based on a few important sources. The first source is actual college freshman polled during a nationwide survey published by the Higher Education Research Institute at UCLA. These students rated academic reputation, financial aid offerings, overall cost of school, and the survey also took into account graduate success rates ono the post-college job market. These factors were weighed equally alongside data from other publicly available sources, including U.S. News & World Report, the National Center for Education Statistics, and PayScale.com.
Massachusetts Institute of Technology
Nuclear engineering at MIT dates back to the 1940s and an intentionally collaborative effort among members of several different fields to create a new, cutting-edge field that combined the best of theoretical scientific research and practical solutions to real-world problems. That spirit continues today at MIT, where the nuclear engineering program focuses on the generation, control, and application of nuclear reactions and radiation in order to solve some of the most pressing social and environmental problems of our day.
Nuclear engineering students at MIT are encouraged to think not only about the present, however, but also to think ahead to what needs future generations might have also. MIT does this through both undergraduate and graduate programs that train students both in the fundamentals of nuclear energy and its major applications in the areas of energy generation, security, and health care. Students benefit from a number of unique resources of this department, such as a new communication lab, a floating nuclear power plant, and an ARC fusion reactor, as well as new faculty hires in fission and fusion, increased enrollment, and the innumerable resources of one of the world’s most reputable engineering institutions.
Georgia Institute of Technology
Nuclear engineering students at the Georgia Institute of Technology, or Georgia Tech, will pursue their program in the George W. Woodruff School of Mechanical Engineering, which merged with the School of Nuclear Engineering in 1984. The School of Engineering dates to 1962 and has maintained a track record of excellence. The Woodruff School offers training in Nuclear and Radiological Engineering (NRE) and Medical Physics (MP) through one undergraduate degree (BSNRE), two master’s degrees (MSNE and MSMP), and one doctoral degree (PhD NRE). It is consistently recognized for excellence nationally.