Cornell University’s Supplemental
The possibility of studying a Chemistry and Chemical Biology degree at Cornell’s College of Arts and Sciences department will guide me with the best path. A path enriched with ground breaking research and insightful information, coming not from the textbooks but from the writers, who have created many of the best engineering texts available anywhere. The Chemistry and Chemical Biology degree program at Cornell, I believe, truly captures the importance of the synergy between chemical analysis and principles with biological phenomena and thus, adds greater depth to this program. In this department every student can choose between the standard and alternative major curriculum with which each provide unique course program that better suits students’ needs and career goals. My chemistry teacher was a great mentor to me throughout my senior year in high school and had helped awakened my enthusiasm for science and moreover engineering. Desirous of becoming a chemical engineer himself, he provided my first prospective of what such program entails and what o...
As I reflect on my extracurricular and academic activities, I see the essence of my future. I want to attend a great university (like the University of Texas); I want to work hard to become a nurse—a person who has devoted his or herself to caring for the well-being of others.
The Cartoon Guide to Chemistry by Larry Gonick and Craig Criddle is a non-fiction book that utilizes visual images and cartoons to cover the basics and intricacies of Chemistry. It consists of two-hundred and fifty-six pages and was published by Collins Reference on May 3, 2005. It covers topics such as chemicals reactions, solutions, acid basis, and chemical thermodynamics in unique fashion that makes chemistry fun and easy to learn as well as understand. The book has no consistent build up or story to it. It simply moves from chemistry subject A to chemistry subject B, explaining the various components that make up the subject of chemistry.
Though I have a number of intellectual interests, three of them are particularly conspicuous: politics, economics, and technology. These interest both excite my curiosity while teaching me lessons that will prove useful for me in life.
The day before an Organic Chemistry II exam, I felt worried and unprepared as I wrapped up my office hours as an undergraduate teaching assistant (UTA) for CompSci 101. As I sat in the room waiting for my replacement to relieve me, I felt myself being pulled in all directions. At the end of the previous semester, I had ambitiously enrolled myself in two upper-level computer science courses, an infamously difficult statistics course, and second semester organic chemistry. Back then, I had not anticipated that I would have the opportunity to write my own book the following school year or that my manuscripts would be expected in the following
Smith, Roland. Conquering Chemsitry: HSC course. 4th ed. Vol. 1. N/A: Cengage Learning Australia, 2010. 74-90. 1 vols. Print.
Chemical Elements and Water . (2007). In R. M. Alan Damon, Higher Level Biology Developed Specifically for the IB Diploma (pp. 46-48). Pearson Education Limited .
Sazlberg, Hugh W. From Caveman to Chemist: Circumstances and Achievements. Washington, D.C.: American Chemical Society, 1991.
Ever since I began studying science and mathematics at all levels of educations I have always had an interest in the production of useful materials. In the growing turmoil of today; a world full of global warming and diminishing resources, questions often arise in my mind such as, "can we make a more efficient, more durable and a renewable resource that will overshadow fossil fuels? and have less of an impact on our environment?" Up to now, I have not found a solution to these questions and answering these questions is a personal aspiration of mine which I aim to fulfil by achieving a degree in Chemical engineering and eventually I will contribute to the field in my own unique way. The debate surrounding sustainable energy fascinates me, having recently learned from personal research I have understood what an authoritative role chemists and chemical engineers play in the industry at the present time and how, by working as a team, they contribute to an improved future for the whole world. However, one of the main reasons that has single-mindedly driven me this far to want to study chemical engineering is a book I have read, “Beyond the Molecular Frontier: Challenges for Chemistry and Chemical Engineering” While reading this book, I had solidified my understandings of what chemical engineering is all about. Also, one of the main processes mentioned was polymerisation and is something I already study in A-level chemistry, it is something that not only interests me, but is a personal career aspiration of mine. Reading this book gave me a determination to be the person who helps improve the future of the industry and provide an answer to the questions I always ask myself by studying this degree.
Though many people fail to realize it, chemistry is a subject essential to everyday life, due to the fact that it is the branch of science that deals with the identification of the substances of which matter is composed. But what we must understand is that everything in the universe is composed of matter, hence chemistry is necessary in learning more about the world and universe that we live in. There are many careers and fields affiliated with chemistry that people pursue to learn more about the composition of the universe, but for now, let us examine the logistics of three of these careers. These three careers involving chemistry are geochemistry, environmental chemistry, and chemical engineering.
Having a degree in chemistry opens the door to a wide array of careers. These jobs include chemical engineer, analytical chemist, and pharmacologist. The job that has me most interested is a Chemical Engineer. These top of the line engineers turn raw materials into useful products. They can make petrochemicals,
The bachelor’s degree either has to be in chemical engineering or a related field. Classes such as chemistry, biology, physics, algebra, calculus, and trigonometry are very beneficial towards pursuing a career in chemical engineering. Some institutions also have certificate programs that last two through four years and are very helpful in preparing a student to enter the field of chemical engineering. Other institutions occasionally have a five-year engineering program in which a student can receive both a bachelor’s degree and master’s degree while even more colleges and universities may sometimes offer internships so students can gain practical experience while they are completing their education.
Throughout my school career I have always loved chemistry. In Chemistry there was always a sense that there was more, there was always something new and exciting to be discovered and theories to be proven (or even disproven). Chemistry was the main subject with a real practical aspect to it during school and it is this, along with my genuine fascination with the subject, which fuels my desire to study it further.
The growing relevance of Chemical Engineering in today’s world, from energy & oil industries to pharmaceuticals & biotechnology, and a keen desire for applying this knowledge in interrelated spheres motivates me to pursue a Master’s degree in this field. My interest in science goes back to the time when I was in school. We had a young and enthusiastic teacher who took us on field trips and visits to science fairs and museums. This nascent interest has only burgeoned through my years in school and high school, as I have learnt more about the subject. In the long run, I see myself as a part of a leading research group, either as a faculty member or in the R&D department of an organisation contributing my bit to the field of Chemical Engineering. As a research scientist, I hope to make a difference in this field and learn more through the innovative challenges.
The various processes and concepts involved in industries responsible for the production of innumerable day to day goods have always captured my fascination. The production and processing of chemicals form the crux of such industries. What started as a fascination has turned into a passion, and the next step in this journey is why i am aspiring towards a Master of Science degree in CHEMICAL ENGINEERING at PENN ENGINEERING specializing in {Specialization}.