Visit to Oak Ridge National Laboratory

Written by Kansas Smith, Scots Science Scholar 2016

My fellow Scots Science Scholars and I were privileged enough to visit Oak Ridge National Laboratory in Oak Ridge, Tennessee. At nine o’clock this morning we arrived at the visitor’s center and obtained our visitor passes and received a brief overview of what ORNL was and what they are about.

The Scots Science Scholars pose for a group pic at the cost of their eyesight

The Scots Science Scholars pose for a group pic at the cost of their eyesight

ORNL is the largest US Department of Energy science and energy-centered laboratory that supports the DOE’s missions of

  • Scientific Discovery
  • Clean Energy and
  • Scientific Security

We began our tour with the super computers. Upon first seeing these computers, it looked to me as an electrical engineering major like a bunch of control panels for machines. Then the clarity came when the tour guide explained to us what these computers were used for and how they were classified. It all depends on how quick the computer can do a math problem and the speeds of those computers honestly went right over my head.

"Tiny Titan," a simulator of the supercomputer Titan

“Tiny Titan,” a simulator of the supercomputer Titan

We had the opportunity to play with a smaller computer that was a simulation of the larger computers and how they operated. He explained to us that a computer doesn’t know what water is so instead it models the particles and how they move and we were allowed to use an X-box controller to manipulate the particles to look like water moving on the screen. After that we headed to my favorite part of the entire day: the drone room. We were shown different types of drones and informed about their many different uses. The tour guide informed us of all the ways that the drones could be used including the current thing they are working on, a titanium drone that can fly into the center of the wildfires without harm. There was a computer screen in the room that showed real time cyber attacks all over the country. The United States was ranked highest in the amount of cyber attacks that occur per hour through the website Norse.

drone thingAfter the drone room, we took a short car ride over to the High Flux Isotope Reactor. While I enjoyed every part of the tour, this is where I began to get lost. ORNL took neutrons and other radioactive materials and made energy. We got to view a reactor core that produced 85 megawatts of energy, and the thing was only waist high. After this we took another short drive to Spallation Neutron Source, an ORNL user facility. In this facility we got the opportunity to view the way that neutrons are applied to everyday life. 13996176_664037730416858_8468196130887389713_oThe tour guide explained to us how neutrons were measured and the space between atoms was used to measure things and improve products we use every day like phone batteries and looking at the neutrons and how they move and how some of them get trapped. When we first arrived at SNS and the man explained what happened, I was very confused but then he began to explain how the science was used in everyday things and it started to click better.

During the tour I was a little more interested in the wiring of the building than I was the neutrons but I learned a few things about neutrons that I would have never understood in a classroom. On top of this all, I got the opportunity to make my dad super jealous. Over all this was an experience that I will remember for the rest of my life, and something that I would do again. Getting to learn about all the different things that happen under one roof and how just about every STEM major can find a job doing something that you might now necessarily think of when you think of that major opened my eyes up to a lot of opportunities. I enjoyed ORNL and intend to apply for every summer internship program they offer.

Kansas Smith (the author)  and Erik Iverson, one of our tour guides

Kansas Smith (the author) and Erik Iverson, one of our tour guides

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pGLO lab


Written by Cameron Moore, Scots Science Scholar 2016

In the weeks preceding my 18th birthday, everyone asked me what I would do with my first day of adulthood. When the day finally came, I had made my decision: I wanted to make bacteria glow.

Actually, I was required to do it, but because I’m a molecular biology nerd –  I was happy to do it! The lab consisted of several principles and procedures that require close attention to detail and relative precision. The purpose of the lab was to transform the genome of E. coli in order to produce GFP or green fluorescent protein. The transformation starts during DNA transcription by adding the pGLO plasmid into the bacterial genome to change the strand. A new strand of mRNA is produced and proceeds to the bacteria’s ribosome to be translated into a bacteria with the GFP present. In the presence of arabinose, the bacteria will utilize the protein, express the gene, and glow a bright green color when exposed to UV Rays.

The transformed bacteria being shown in the UV light

The experiment required each group to prepare four different bacterial cultures containing different variables. The control dish was made of Luria Broth and an E. coli sample that did not contain the pGLO plasmid. The second and third dish were made up of the same substance plus an antibiotic called Ampicillin which would prevent bacterial growth. These plates separately had E. coli with and without the pGLO plasmid. The final plate had both substances from the previous cultures, as well as the monosaccharide arabinose.  The proposed and gained results were the following:

  • Plate 1 (w/o pGLO): Bacteria Grew/ Did Not Glow
  • Plate 2 (w/o pGLO w/ Ampicillin): Bacteria Did Not Glow/Did Not Glow
  • Plate 3 (w/ pGLO w/ Ampicillin) : Bacteria Grew/ Did Not Glow
  • Plate 4 (w/ pGLO w/ Ampicillin w/ Arabinose): Bacteria Grew and Glowed

This lab was my favorite for two reasons. The first reason was that I was allowed to geek out about molecular biology for 3 hours and do one of my favorite labs from the high school. The second was that I got spend my birthday with some of the best people I have ever met. Without the 17 other Scots Science Scholars, the 2 wonderful professors, and the 5 amazing peer mentors, my 18th birthday would not have been as eventful or memorable.The S3 program gave me the best birthday present of all this year; it gave me a group of amazing and supportive friends.

Cameron Moore (the author), Tyler Lee, Alan Miramontes-Flores (peer mentor), and Ben Galloway pretend to like each other for a quick photo

Cameron Moore (the author), Tyler Lee, Alan Miramontes-Flores (peer mentor), and Ben Galloway pretend to like each other for a quick photo

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