Engineering: The Power To Make a Difference In the most basic sense, engineering means “making things happen.” It is the practical application of science and math, the two subjects I am most passionate about, to solve everyday problems. It opens up a world of opportunity to create innovative technology that influences many aspects of people’s lives, this giving an individual the power to make a difference. While I am deeply interested in the subjects that are the foundation of engineering, in addition I have many other personal reasons for pursuing civil engineering in specific. I am motivated by my desire to fulfill my lifelong goal of creating purposeful infrastructure, to make all of my family proud, and to prove that not all engineers …show more content…
Living up to my families expectations can be difficult because each side—both my mother’s and father’s—have very different educational backgrounds. However all of my family has motivates me to go to university. I grew up with my father’s words “Engineers change the world and you could too” whenever the subject of postsecondary would arise. These expectations were held by his side of the family, where many of them have gone to university to become engineers and educators. Family gatherings always consist of large amounts of conversation; primarily politics and university. I recall a certain conversation with my cousin Kyle, a mining engineer, where we discussed what it’s really like to be an engineer. Kyle has been a primary source of knowledge for the details and responsibilities of my career choice. On the other hand, my mother's side hasn’t seen a single relative obtain a post-secondary education. However, they see that I have the potential to be successful in life, so they continually motivate me to succeed in life. Also being the side where my Metis heritage comes from, I would not only be proving to my family that they are capable of obtaining a degree, but to other Metis individuals who come from a similar background with an uneducated family. Both of these families provide me with the motivation to succeed in engineering because I feel obligated to maintain my father’s family university tradition, but also strive to be the first ever to obtain a degree in mother’s
Inspired by the Canadian education system, my family immigrated to Canada. I began my schooling as a grade 10 student and it was not an easy transition especially with my disabilities (Dyscalculia and Dysphasia/Aphasia). Regardless, I have always dreamt about being an Engineer and was dedicated to achieving it. I had to commit longer than usual time in studies to help me overcome/comprehend for this disability. Initially it caused many disappointments as I was not seeing any results regardless of my endless effort. However, I was consistent and kept pushing
I was raised in an encouraging household where both of my parents greatly valued education. Although they were high school graduates, neither could afford to attend college; a combination of family and financial woes ultimately halted their path. As a result, my parents frequently reminded me that getting a good education meant better opportunities for my future. To my parents, that seemed to be the overarching goal: a better life for me than the one they had. My parents wanted me to excel and supported me financially and emotionally of which the former was something their parents were not able to provide. Their desire to facilitate a change in my destiny is one of many essential events that contributed to my world view.
Landis, Raymond B. Studying Engineering: A Road Map to a Rewarding Career. Los Angeles, CA: Discovery, 2013. Print.
My story began on a cool summer’s night twenty short years ago. From my earliest memory, I recall my father’s disdain for pursuing education. “Quit school and get a job” was his motto. My mother, in contrast, valued education, but she would never put pressure on anyone: a sixty-five was passing, and there was no motivation to do better. As a child, my uncle was my major role-model. He was a living example of how one could strive for greatness with a proper education and hard work. At this tender age of seven, I knew little about how I would achieve my goals, but I knew that education and hard work were going to be valuable. However, all of my youthful fantasies for broader horizons vanished like smoke when school began.
The philosophy of engineering can be summarized by a popular catchphrase from famous comedian Larry the Cable Guy: “Git ‘er done!” At the most simplistic level, engineering is the process of solving real life problems in spite of real life limitations. While engineering can easily be defined, the philosophy of engineering is more difficult to put into words. Once the philosophy is defined, the use of that knowledge, and when that knowledge of engineering philosophy can be used will follow.
There are various types of engineering that make the world the way it is. The engineering field is a huge necessity to the world. The field provides a sense of infrastructure and stability to anywhere and everywhere, and without engineers, the world would pretty much fall apart. Lots of people assume that engineering only has to deal with the environment and the external structures that make up where we live, but that is just the tip of the iceberg. Other types of engineering include the makeup of the body, and the function of the specific internal organs. This is when we land on the field of biomechanics. The purpose of biomechanics is to study the function and the movement of the human body. This engineering field is very important because
The word engineer comes from the latin word ingeniare. ingeniare means construct or craftsmanship. Ever since the beginning of time we have had engineers. Engineering is the combination of math and science , solving world problems to help better the world around us. Being an engineer takes a lot of knowledge, creativity, and hard work. A typical engineer can clearly see a problem and is capable of fining a solution. A senior engineer or engineering manager usually doesnt do as much technical work, but usally lot of managing. Some of the first official engineers were military engineers. They were employed by the goverment to build such things as roads, bridges, and weapons. US mililary Academy at Westpoint was the first school to offer an education in enginnering. Engineering is a very broad field. Engineers are always at a high demand, we could never have enough brilliant minds making the world better. Engineers are needed everywhere. Engineering managers have to have a bachelor's degree or higher, they usually direct and seek solutions to problems and are sometimes called executi...
My decision to become an electrical engineer was not a decision I took too long ago. It is something that I decided to pursue when I entered a Science, Technology, Engineering, and Math (STEM) high school. It was then that I realized how much I enjoyed working with computers and building circuits, and the fact that this career involved many subjects. Doing a lot of research to understand better what it meant to be an Electrical Engineer, I found out that in order to succeed in this career one had to know a little bit of everything. In other words, subjects such as science and math are essential to know if someone wants to be successful electrical engineer. An electrical engineer is someone who finds practical solutions to everyday problems that involve electricity, such as computers, cell phones, among other electrical equipments. In order to create a useful device one must know where to start and this is where science comes in. An electrical engineer must be able to use the scientific method, which means; one must form a procedure, test it out, and write a conclusion. These parts of the scientific method must be written clearly, so that others can recreate and test out a device or project. Math also plays a key role in this area of study, because one must be precise when creating a new device that others are going to use. For example, if one were to create a new type of cell phone one must know a lot of math in order to be able to progr...
Like all engineers, architectural engineers apply the theories and principles of science and mathematics to research and develop economical solutions to technical problems. Their work is the link between scientific discoveries and commercial applications. Engineers design products, machinery to build those products, factories in which those products are made, and the systems that ensure the quality of the product and efficiency of the workforce and manufacturing process. Engineers design, plan, and supervise the construction of buildings, highways, and transit systems. They develop new materials that both improve the performance of products and help implement advances in technology. Engineering knowledge is applied to improving many things, including the quality of health care, the safety of food products, and the efficient operation of financial systems.
The civil engineering field is about gathering and interpreting data, being able to give technical presentations to colleagues, team work to design and build a project, projects range from the design and construction of dams, bridges, buildings, roads, and water supply systems. In most cases the works of engineers are admired and sought after. Engineers play an important role in the development and improvement of a society. Yet, like other technical and non-engineering careers the civil engineers also face issues, for example, regarding ethics, high energy building consumption, increased soil and coastal erosion, inadequate water quality, traffic congestion, and some poor infrastructures resilience to disasters. Another example is that unfortunately in the United Kingdom, the civil engineering industry is highly fragmented with 93% of companies having 14 or fewer employees which is not always a great idea, as written by John Miles in Civil Engineering Informatics. There is also a need to implement new professional and educational approaches to new challenges and new implications that are needed for the twenty-first century society. This paper will introduce and explain five different issues that civil engineers are currently facing and elaborate about how these challenges interrelate to each other.
Engineering is the application of scientific, economic design and a wide range of other specialized fields of engineering. As an engineer, there are four major different areas of engineering work that I can concern about, that is chemical engineering, civil engineering, electrical engineering and mechanical engineering. Beyond this four, sources separate to other main branches. Based on the electrical engineering is concerned with the basic forms of energy that run the world, there is a hopeful future in taking this major as my direction of future. However, what exactly is the benefit of this major; am I suppose to choose this major; what kinds of job opportunities that I am able to get and various of other questions are what I concerned the most.
Devlin believes that mathematics has four faces 1) Mathematics is a way to improve thinking as problem solving. 2) Mathematics is a way of knowing. 3) Mathematics is a way to improve creative medium. 4) Mathematics is applications. (Mann, 2005). Because mathematics has very important role in our life, teaching math in basic education is as important as any other subjects. Students should study math to help them how to solve problems and meet the practical needs such as collect, count, and process the data. Mathematics, moreover, is required students to be capable of following and understanding the future. It also helps students to be able to think creativity, logically, and critically (Happy & Listyani, 2011,
Civil engineering is a very demanding yet fulfilling career, as the engineer is able to work on a project from its inception right to its completion. When you drive over a bridge, see a building, fly out of an airport, or visit a museum, a civil engineer has had a major part in that
Study is necessary to succeed. Study is a good way to develop our mental. Study can increase our experience and knowledge. Study can also train our mind to understand the complexities of the subject chosen and then apply that understanding in practical terms. Through study, we can learn how to discipline ourselves to do something you don’t want to do, which will help us succeed in anything in our life.
Environmental science refers to the study of the effects that occur through natural and unnatural processes. The study involves the interactions of the Earth’s physical components that take place on the environment. Notably, the natural environment consists of all existing and non-existing things that exist on the planet. Full ecological systems that operate as natural practices without requiring the intervention of human beings are also included in the environment. Furthermore, physical units such as animals, vegetation, rocks, microorganisms, natural phenomena, and atmosphere usually occur within the boundaries of the environment (Altman and Wohlwill 113). Although the environment embraces natural resources and physical phenomena that need clear limits, it is worth noting that renewable and non-renewable energy resource is an environmental science topic that should receive top priority next year due to various reasons.