Kimathi
Aug 12, 2010
Undergraduate / Engineers can turn ideas into reality. [19]
Below is my essay for the cornell supplement. I am wondering whether it is captivating enough and whether it adequately addresses the prompt. It is also way above the limit of 500 words ( It's 657), where do you think i should cut down? Please have your go at it, reap it apart, critique and let me know everything that is not clear etc. Thanks.
Prompt: Engineers turn ideas (technical, scientific, mathematical) into reality. Tell us about an engineering idea you have or your interest in engineering. Explain how Cornell Engineering can help you further explore this idea or interest.
I have always had an inquisitive mind. One of my earliest memories involves me taking apart my remote-controlled toy car to see who drives it from within. I was certain that I would find some sort of miniature man at the wheel, waiting for my cue. You can therefore imagine my astonishment when instead I found a bunch of colored strings hooked up to strange looking boards and an interior that was not at all accommodative for Mr. Mini-driver. Since then, however, my reasoning power has exponentially grown, and with it, my interest in engineering.
As I grew up, my curiosity was not only limited to the workings of toys and other playthings. I progressively got more and more diverse in my choice of test-subjects. It was not uncommon, to find me bent over, slowly taking apart the camera or perhaps going through all folders in the control panel of our home PC as I changed every setting possible, just to see what would happen. Perhaps the pinnacle of my junior engineering career is when I turned the kitchen into my very own chemistry lab. With my night-gown as my lab coat, I would gather many different spices, condiments, vegetables, canned goods and of course all the cleaning agents. With these, I would craft numerous substances of varied characteristics. From the thick emulsion of corn oil, egg and about a dozen other liquids that I made as a fertilizer, to the peculiar substance halfway between liquid and solid that I got by combining corn flour and water. The level of advance chemistry going on in that kitchen was rivaled only by Dexter in his laboratory. All through this, I would question the properties formed and try to determine which of my 'chemicals' caused particular observations. It is only now that I realize that I was actually practicing a very elementary form of qualitative analysis.
My interests obviously spilled over into my school life. I have always immensely enjoyed the academic and practical study of mathematics, chemistry and physics. It is hence not a surprise that a degree in chemical engineering has been the natural progression that seemed most suitable to me. I am significantly attracted to the course as I see it enabling me to combine scientific theory with a practical application in modern day emerging issues. The enthusiasm I have for this course is unquantifiable and I believe I will be able to utilize this passion to optimize my learning. In particular, the Chemical engineering course offered at Cornell has been my ambition for many years now. Apart from enabling me to obtain an unyielding foundation in engineering and chemistry; that it allows me to take a specialized course in a key interest area is extremely attractive. I already see myself taking a minor in operations research and management science. Furthermore, being able to coordinate an in-depth study, experimentally investigating a particular hypothesis, with materials other than ketchup and Clorox bleach, has long been a desire of mine. It is apparent that this is entirely feasible at the college of engineering through the numerous undergraduate research opportunities. I cannot wait to experience the application of the abstract concepts covered in my engineering courses through this program.
Most of all, the versatility of the chemical engineering degree offered at Cornell is the principle attractive quality. Though I will have had a chance to have the fundamental training in chemical engineering and also gain specialisation in a key area of concentration, I will at the end of the day have developed a critical, innovative and independent thinking capacity with which I will be able to apply my expertise in various fields. Society needs engineers that can and will change the world. I would love the opportunity to contribute to humanity through technological innovation and therefore, a degree in chemical engineering is the right path for me, and without doubt Cornell is the place for me to get it.
Below is my essay for the cornell supplement. I am wondering whether it is captivating enough and whether it adequately addresses the prompt. It is also way above the limit of 500 words ( It's 657), where do you think i should cut down? Please have your go at it, reap it apart, critique and let me know everything that is not clear etc. Thanks.
Prompt: Engineers turn ideas (technical, scientific, mathematical) into reality. Tell us about an engineering idea you have or your interest in engineering. Explain how Cornell Engineering can help you further explore this idea or interest.
I have always had an inquisitive mind. One of my earliest memories involves me taking apart my remote-controlled toy car to see who drives it from within. I was certain that I would find some sort of miniature man at the wheel, waiting for my cue. You can therefore imagine my astonishment when instead I found a bunch of colored strings hooked up to strange looking boards and an interior that was not at all accommodative for Mr. Mini-driver. Since then, however, my reasoning power has exponentially grown, and with it, my interest in engineering.
As I grew up, my curiosity was not only limited to the workings of toys and other playthings. I progressively got more and more diverse in my choice of test-subjects. It was not uncommon, to find me bent over, slowly taking apart the camera or perhaps going through all folders in the control panel of our home PC as I changed every setting possible, just to see what would happen. Perhaps the pinnacle of my junior engineering career is when I turned the kitchen into my very own chemistry lab. With my night-gown as my lab coat, I would gather many different spices, condiments, vegetables, canned goods and of course all the cleaning agents. With these, I would craft numerous substances of varied characteristics. From the thick emulsion of corn oil, egg and about a dozen other liquids that I made as a fertilizer, to the peculiar substance halfway between liquid and solid that I got by combining corn flour and water. The level of advance chemistry going on in that kitchen was rivaled only by Dexter in his laboratory. All through this, I would question the properties formed and try to determine which of my 'chemicals' caused particular observations. It is only now that I realize that I was actually practicing a very elementary form of qualitative analysis.
My interests obviously spilled over into my school life. I have always immensely enjoyed the academic and practical study of mathematics, chemistry and physics. It is hence not a surprise that a degree in chemical engineering has been the natural progression that seemed most suitable to me. I am significantly attracted to the course as I see it enabling me to combine scientific theory with a practical application in modern day emerging issues. The enthusiasm I have for this course is unquantifiable and I believe I will be able to utilize this passion to optimize my learning. In particular, the Chemical engineering course offered at Cornell has been my ambition for many years now. Apart from enabling me to obtain an unyielding foundation in engineering and chemistry; that it allows me to take a specialized course in a key interest area is extremely attractive. I already see myself taking a minor in operations research and management science. Furthermore, being able to coordinate an in-depth study, experimentally investigating a particular hypothesis, with materials other than ketchup and Clorox bleach, has long been a desire of mine. It is apparent that this is entirely feasible at the college of engineering through the numerous undergraduate research opportunities. I cannot wait to experience the application of the abstract concepts covered in my engineering courses through this program.
Most of all, the versatility of the chemical engineering degree offered at Cornell is the principle attractive quality. Though I will have had a chance to have the fundamental training in chemical engineering and also gain specialisation in a key area of concentration, I will at the end of the day have developed a critical, innovative and independent thinking capacity with which I will be able to apply my expertise in various fields. Society needs engineers that can and will change the world. I would love the opportunity to contribute to humanity through technological innovation and therefore, a degree in chemical engineering is the right path for me, and without doubt Cornell is the place for me to get it.