During the Fall 2018 semester, I took a course titled “Statistical Mechanics” at Mount Holyoke College, taught by Kerstin Nordstrom. This was an 300-level course that focuses on concepts in thermodynamics and statistical mechanics. Nearly all of our time in class was spent on lectures, where we discuss the fundamental concepts in statistical mechanics and solve some complex problems as a class.
Towards the end of the semester, we were assigned to come up with a project to do independently that further explores one of the topics we discussed in class. I was inspired by the lecture on quantum gases, which mentioned white dwarfs as an application of the Fermi gas, an example of a quantum ideal gas. Seeing this as an opportunity to merge my interests in physics and astronomy, I decided to do my project on white dwarfs, where I completed a problem that derives the relationship between the mass and the radius of a white dwarf star. The relationship between mass and radius is directly derived from the function for the total energy of the white dwarf. The function for total energy incorporates the Fermi Energy, which is an important property of a quantum gas.
This article walks through the derivation of the relationship between the mass and the radius of a white dwarf. It includes a detailed description of the process, as well as the equations used, calculations done, and some figures I created. Figure 1 in the article, the sketch showing the assembly of a sphere shell by shell was created in Adobe Illustrator, and Figures 2 and 3 in the article are graphs generated by Wolfram Mathematica.
During the Fall 2018 semester, I took a course titled “Electronics” at Mount Holyoke College, which was taught by Kathy Aidala. A lot of physics majors take this course in order to fulfill part of the lab requirement for the major. Most of our time in class was spent working on labs that reinforce the concepts in analog electronics that we learn by reading, solving problems for homework, and discussing in a lecture before the lab. The labs we do in class have us building and testing analog circuits that serve a variety of purposes.
The lab I’m sharing in this post is the third lab in the class, and the first one we were assigned to do a write-up on. In this lab, we designed, built, and tested two different circuits, both of which function as a voltmeter. Both of the circuits we built had some parameters that we were required to meet with the design. Before we began, we were given skeleton circuits for both voltmeter circuit designs, meaning that we already had a basic layout of what the circuits should look like. The part of the design that we were tasked with figuring out was what we should use for the specific components of the circuit, such as the values of the resistors, and the model of the op-amp. All of the decisions on these components were made in order to meet the parameters we were given for the circuits. Once we decided on these specifications and had a complete design, we built and tested both of the circuits.
This write-up discusses the specific tasks we were required to do in this lab, and walks through the entire designing, building, and testing process. All circuit designs and drawings, as well as the calculations done to find resistor values are included in the document. The final document was written in LaTeX, and all of the figures were hand-drawn by me.
January 2019 has begun, which means that I am currently in the middle of winter break, the month in between the fall and spring semesters with little stress and few worries. Or at least it’s advertised to be that way. As a senior physics major with her sights set on graduate school, this “break” isn’t much of a break for me, but is rather an amount of time allotted for me to begin my preparations for applying to graduate school.
One of the things that most students have to do in order to be accepted in to graduate school is to take the Graduate Record Examinations, or the GRE. I have never had a very good history with standardized tests, so needless to say I am not excited to take this exam. However, the time I have for winter break allows me to begin my preparations for the GRE, and do what I can to feel as confident as possible when I take the exam. I will be taking both the General GRE, and the Physics GRE (since those are the ones required by most graduate programs in physics), so those are the two exams that I will be spending my time preparing for.
So far I have done some research on the material covered on both the General and the Physics GRE exams, and have devised an approach to feel comfortable with it. This test can be very overwhelming since it covers a wide range of topics, so I have broken down every piece of it into smaller chunks, and will approach my studying by covering one chunk at a time. I mentioned in a previous post that I intend to use my bullet journal for just about everything, so I have set aside two pages in it where I have drawn out roadmaps for the GRE:
GRE Roadmap – General Test
Above is my roadmap for studying for the General GRE test. As shown, it has three major parts: Analytic Writing, Verbal Reasoning, and Quantitative Reasoning.
The Analytic Writing section has two tasks: one that has the student write a short essay analyzing a given issue, and the other one has the student write a short essay analyzing a given argument. For each task in the analytic writing section, my intention is to first understand what specifically is expected to be done when given a prompt, and how a submission for the task is scored. Next I want to look at some samples from past GRE tests, and understand why they received the score that they did. Finally, I’ll spend some time practicing these two tasks using the materials I’ve gathered.
The verbal reasoning section of the test has three parts: Reading Comprehension, Text Completion, and Sentence Equivalence. My plan of approach for this section is similar to my plan for the analytic writing section, where I spend some time understanding the task of each part and how they’re being scored, look at some samples from past exams, and then practice.
The quantitative reasoning section of the test is a little different from the other two. This section contains four different question types (comparison, multiple choice (select one), multiple choice (select one or more), and numeric entry), and covers four different areas in math (arithmetic, algebra, geometry, and data interpretation). I’ve laid out my approach to this section a little differently, where I spend some time familiarizing myself with both the subjects covered, and the types of questions being posed, and then complete plenty of practice questions with the goal of being able to answer them as efficiently and accurately as possible.
GRE Roadmap – Physics Subject Test
Above is my roadmap for studying for the Physics Subject Test. This test covers nine major areas in physics (classical mechanics, electromagnetism, waves and optics, thermodynamics and statistical mechanics, quantum mechanics, atomic physics, special relativity, lab methods, and special topics), each of which cover a wide range of more specific topics and concepts. This roadmap is a complete breakdown of all of the topics on the physics subject test, where the large boxes represent each of the major subjects covered, and are further divided to represent the more specific topics.
My plan of action for this subject test is to familiarize myself with each of these topics, and answer a bunch of practice questions with the goal of being able to complete these questions as efficiently and accurately as possible. This roadmap makes the volume of material on this test seem very high, which is true, however there are some topics that appear way more often than others. For example, classical mechanics and electromagnetism appear on the test the most, and lab methods and special relativity appear on the test less. Therefore, my studying will be prioritized based on how much each subject is seen on the test.
I hope that reading my blog posts on the GRE will help those who plan on taking the test in the future, and remind those who are studying for it and taking it are not along with their suffering. I’ll make sure to keep posting updates on my progress!
Hello everyone, happy 2019, and welcome to the first post on my brand new website! 2019 is the year that I graduate from Mount Holyoke College with a bachelor’s in physics and astronomy, so it goes without saying that this is a big year for me. With this major life event quickly approaching, there are some things that I want to do and goals that I want to set for myself in order to feel more ready for my post-college life, and to improve myself as a person. At the time that I am writing this blog post, I do not have any immediate post-graduation plans, however the life goal I currently have that will become my main focus for the year is to get in to graduate school in order to pursue a PhD in physics. My purpose for getting a PhD is to gain the ability to achieve my goal of becoming a physics professor, a career that would allow me to conduct research as well as educate the next generation of physicists.
I do have a few smaller goals for this year as well as this bigger one such as improving my budgeting skills, making more time for reading and doing art, and becoming more organized and efficient. In the recent past, my main tool for keeping myself organized has been my bullet journal which I believe has been very helpful, however there’s always room for me to improve my methods. With this in mind, one of my smaller tasks for this year is to optimize my bullet journal by improving my layouts, making it as useful and versatile as possible, and maximizing the efficiency and frequency of its usage. What I find most powerful with the bullet journal is that it can become a personal hub containing all of the information I need on everything I do. Another one of my favorite things about it is that it’s completely customizable, so I can organize it to fit any of my needs, and change it when one or more of my strategies isn’t working. One thing I will be sharing on this website is images of my bullet journal, and thoughts on how useful it has been and ways that I can improve it. I have already finished a few pages in my bullet journal for 2019:
2019 Title Page and Resolutions
Above are the first two pages I have for the new year. On the left I made a colorful title page to bookmark the beginning of 2019, and on the right I have a page for my goals and resolutions for the year. I’m pretty happy with how the title page came out, however I didn’t really plan it out before starting it, and I wish that I made the center circle a little smaller to have more room for the colors.
2019 Future Log
The image above shows what my future log for 2019 looks like. On the left of the pages I have miniature calendars for every month where the important dates will be highlighted, and the right of the pages has space for writing the descriptions of the important dates. The pages for the first half of the year are plagued with ink smudges, so I’m showing the second half since it looks a lot nicer.
January Calendar
Above is the monthly page for January, the first one of 2019. My monthly pages have recently been looking like this, with the calendar taking up most of the space and being the center piece, and some space at the top right for notes. One thing I like to do is assign a color for each month, which is used on the calendar, as well as all of the weekly pages for that month. January has been assigned light blue. On the far right side of the page, I have a little bit of blank space which isn’t being used for anything yet. There’s not a lot of space there, so for this month I probably won’t do much more than adding some extra decorations. However, I may increase the size of the space in order to include something else on my monthly pages if I feel that there’s something missing.
Another goal that I have for the coming year is to put a considerable amount of work into this website, and to have it functioning and polished by the end of the year. This website will hopefully serve a couple of purposes. One purpose is to document and track the progress made on my other goals. Another purpose of this site is to explore some of my interests in science, and to enhance my communications skills. My hope is that by becoming a better communicator in physics and science, I will be able to teach the students of these areas more successfully, and feel more confident when I begin my role as an educator.
I hope that everyone has had a great start to the new year, and remember to check back on this website for more posts!
A bachelor's in physics and astronomy sharing her thoughts on science and experiences as a student
