The study of chemistry is enhanced by computer applications from the recent surge in technology. As a forerunner in computer science among universities, Stanford combines computational and chemical science, leading to new discoveries, interdisciplinary programs and Nobel Prizes. Last year, 26 percent of Stanford undergraduate degrees were in computer science or engineeringwhich includes chemical engineering, about three times as many as at Harvard.
And there are millions of chemists competing for positions in these companies. I'm going to do a bit of that, but also point out how chemistry experience could potentially contribute to some very select CS opportunities.
I find myself in a similar position to you. I recently declared a double major in Chemistry and Applied Math-Comp.
Sci emphasis because I enjoyed both subjects. I was initially planning to double in pure Comp.
Computational chemistry is one of many fields in which CS and chem will overlap these days. It's not obvious, but there are many, many others, as people who are good with computers and science are rarer than they should be. Many labs, even those that are not computational in nature, rely on some basic modeling.
I currently do some work with a nanoparticles group, and the PI was recently complaining that most of his grad students couldn't program anything to save their lives.
Failing that, our field could always use some good software devs. Perhaps I'm a little spoiled, but some our so-called "cutting edge" software suites have to be partially recomplied every time they are launched and suffer from spontaneously having communications modules crash, necessitating reboots of several computers in order to get things up and running again.
It's pretty obvious to me that a lot of the stuff was designed by a software developer and not by a practicing scientist--such as the million button presses needed to load data and work with it, and the general recalcitrance of such software to spit out various data types.
Everything is moving to computers, and research is no exception.
Researchers are still trying to figure out how to share files easily, store them, and publish them more than one study has gone to press as a letter without any of the code attached to it. Ultimately, I don't know what you want.
Based off your last few paragraphs, this probably isn't what you were looking for, but since you opened with a question about the overlap between two fields, and not how one could contribute to the other, I'm leaving these here as ideas about how several fields can potentially interact.
For an interesting example, Philip Guo's PhD thesis revolved around the question of how the same code could give the same results when run on different systems, in spite of different environments. The question led him to create a tool I believe Python which allows simulations to run in a safely sandboxed and thus identical environement without loss of performance.Computer science is the study of the theory, experimentation, and engineering that form the basis for the design and use of schwenkreis.com is the scientific and practical approach to computation and its applications and the systematic study of the feasibility, structure, expression, and mechanization of the methodical procedures (or algorithms) that .
I'm a computer science major, but prior to going to university I had (and still have) a deep passion for chemistry. My highest marks were always in chemistry, but I decided to go down the compsci route because likewise it is a passion of mine.
Let me give you a very different take from the answers below.
You are in a computer science program, where you are being trained to be a scientist (not a programmer). As a scientist, you are expected to have some basic literacy when it comes to.
First and foremost, computer science is a science. In and of itself, CS is a science with no direct application(s)—it is pure knowledge.
Five applications of computers to the undergraduate chemistry curriculum have evolved during the past decade at the University of Pittsburgh as a result of this work: a library of computer-assisted instruction lessons: a computer-assisted test construction system: a library of simulation and data reduction programs: a library of computer. The study of chemistry is enhanced by computer applications from the recent surge in technology. As a forerunner in computer science among universities, Stanford combines computational and. Computer science is the theory, experimentation, and engineering that form the basis for the design and use of schwenkreis.com involves the study of algorithms that process, store, and communicate digital information.A computer scientist specializes in the theory of computation and the design of computational systems.. Its fields can be divided into a variety of theoretical and practical disciplines.
In the form of new technologies, new methods and a greater understanding of the Universe, the . Five applications of computers in the chemistry curriculum school chemistry.
The instructor can simply assign the corresponding questions in CGEQ for self- study, and spend less lecture time on reviewing high school chemistry. I'm a computer science major, but prior to going to university I had (and still have) a deep passion for chemistry.
My highest marks were always in chemistry, but I decided to go down the compsci route because likewise it is a passion of mine.