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Mechanical Engineering ambitions
Mechanical Engineering ambitions
Mechanical Engineering ambitions
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Mechanical Engineering
Alex Bui
English 4 Period 9
Ms. Rad
28 October 2017
Topic Outline
Introduction:
Thesis Statement: One of the broadest engineering disciplines, mechanical engineering, requires a Bachelor’s degree in engineering and are well-paid professionals whose occupation is expected to grow at a faster than average rate.
I. Mechanical engineering description
II. Education
III. Mechanical engineering salary
IV. Employment
Conclusion:
Topic Sentence Outline
Introduction:
Thesis Statement: One of the broadest engineering disciplines, mechanical engineering, requires a Bachelor’s degree in engineering and are well-paid professionals whose occupation is expected to grow at a faster than average rate.
I. Mechanical engineers
…show more content…
I mean the technology that is used daily, all around the world, 24/7. Most people take for granted the devices that are essential in a normal home. But mechanical engineers know just how important these devices are in life. Mechanical engineers design, develop, build, and test mechanical systems such as tools, engines, and machines. They work with anything that moves and are a key part of industries that involve automotive, aerospace, biotechnology, electronics, automation, manufacturing, and etc. One of the broadest engineering disciplines, mechanical engineering, requires a Bachelor’s degree in engineering and are well-paid professionals whose occupation is expected to grow at a faster than average …show more content…
And there are currently 288,800 mechanical engineers in the United States. Which means by 2026 there will be an estimated 314,792 mechanical engineers, an increase of about 26,000 engineers in a span of 10 years. So finding a job in this field shouldn’t be as difficult.
Mechanical engineering is one of the broadest engineering disciplines. Mechanical engineers plan and design tools, engines, machines, and other mechanical systems that produce, transmit, or use power. Mechanical engineers generally work in offices. But may occasionally travel to workshops or facilities where a problem requires their personal attention. Mechanical engineers typically need a bachelor's degree in mechanical engineering or mechanical engineering technology. And the median annual salary of a mechanical engineer was about $85,000. Works Cited
“Summary.” U.S. Bureau of Labor Statistics, U.S. Bureau of Labor Statistics, www.bls.gov/ooh/architecture-and-engineering/mechanical-engineers.htm#tab-1.
Taylor, Allan, and James Robert Parish. "Mechanical Engineer." Ferguson's Career Guidance
Center. Facts On File, Inc. Web. 12 Oct. 2017. (-- removed HTML --)
Today there are currently 250,800 diesel mechanics employed and there expected to rise be 9% by 2022. Because diesel burns cleaner and the worlds trying to go green and is used to transport goods all
The outlook for a mechanical engineer is good. The Bureau of Labor and Statistics of the Federal Government reports that the size of mechanical engineers is about 230,725. That number is expected to increase about 19 percent by the year 2005. Because things are constantly being designed and manufactured there will always be a need for mechanical engineers.
Looking at the history of this industry it has only grown sense it was first introduced. This is because societies are always sick and everyone wants to get better, which is where Biomedical Engineering comes in. The scientists work constantly to construct new medical devices; some of these devices include critical time instruments like a defibrillators or a disorder that is permanent like a pace maker. In both cases without them many people would not make it out of a hospital. There is one issues with the biomedical industry, as time goes on engineers are constantly pressured to come up with the next great device but they are limited by what has already been made. What this means is Engineers can only be as good as the equipment that is presented to them. A pro to this is that in return the engineers are paid fairly well and get ...
Anybody and everybody can become an industrial machinery mechanic; especially, those who are passionate about getting their hands plastered in motor oil, grease, and other mechanical lubricants. These people will more than likely be ecstatic about getting into industrial machinery mechanics. They need to be able to put in one hundred ten percent of their effort into becoming an industrial machinery mechanic. An industrial machinery mechanic’s overall objective on the job is to stop a mechanical error before it happens. An industrial machinery mechanics are often caught repairing, maintaining, and fabricating machinery. They will be required to have certain education and training as well as some on the job training or complete an apprenticeship program. They will receive many benefits for working in this particular field.
Over the years, technology has developed greatly. Inventions now compared to those in the past completely outshine the latter, and is always being worked on. For these reasons, technology has had a great impact on how we, as humans live our lives.
I am applying for a Masters in Mechanical Engineering with a concentration in Solid Mechanics to expand on my study of and experience with materials. I have thoroughly enjoyed studying Materials Science and Engineering as an undergraduate at UCLA. I now look forward to moving into graduate study in a field of engineering with a related, but different perspective. Materials Science and Engineering has allowed me to explore both materials and other fields within engineering, contributing to my strong interest in combining my study of Materials Science and Engineering with Mechanical Engineering. I have completed basic coursework in most areas of engineering, learning statics, thermodynamics, basic programming, and circuit design. This has provided a strong foundation to continue graduate study in other engineering disciplines. I
Engineering and science are the major evolving fields in the world. This text concentrates on comparing and contrasting the two terms in detail.
The first and biggest positive impact on engineering has been the use of Computer Numerical Control machines (CNC); computers were first introduced to these controls in the early 1970’s. CNC machines typically replace or work in conjunction with some existing manufacturing process. For example before CNC machines a person using a drill press to machine holes would have to do a lot of work for themselves. They would have to place a drill in the drill chuck is secured in the spindle of the drill press. They can then select the desired speed for rotation, and activate the spindle. Then they manually pull on the quill lever to drive the drill into the work piece being machined. As you can see, there are a lot of manual steps required to use a drill press to drill holes. While this way may be acceptable for a small number of holes or parts. However, as quantities grow, so dose the likelihood for fatigue due to the tediousness of the operation. There are also more complicated machining operations that would require a much higher skill level of the person running the machining tool. The CNC machining center can be programmed to perform this operation in a much more automatic fashion. Everything that the drill press operator was doing manually will now be done by the CNC machine, including: placing the drill in the spindle, activating the spindle, positioning the work piece under the drill, machining the hole, and turning off the spindle. CNC works from a source code made on a computer that you just save as a file on your disk and insert it into the machine. The code can be made using two different ways, the first is just understanding the code, and by using the notepad program on you computer, you can just type it right out. This is the easiest way for very simple process, which doesn’t require much code.
Engineering Mechanics deals with the rigorous study of mechanics, applied mathematics and related fields. This leads to an understanding of advanced analysis and leads to study in structural engineering, hydraulics, mechanics of solids and fluids, or properties of materials.
To become a mechanical engineer you must have a bachelor’s degree in mechanical engineering. You usually have to be good in math, science, and engineering. Some colleges have a 5 year program. This program is for students with a bachelor 's degree and a masters degree. This program gives students a lot of experience when will get them ready for after college. It also helps them earn money to help contribute part of their education.
When designing products, they may start to just sketch out the idea and then after a couple of sketches, he or she will start to use a Computer-Aided drafting program. After a product has been built, they will preform a quality assurance check on the product. Bureau of Labor Statistics (2015) says, “Employment of mechanical engineers is projected to grow 5 percent from 2014 to 2024, about as fast as the average for all occupations. Mechanical engineers can work in many industries and on many types of projects”. As technology advances so will the number of engineering jobs in the workplace. If you have a mechanical engineering degree you are able to work in many environments from the rail industry to the aerospace
I want you to think back to what might be the greatest invention ever. Dependant upon how well you know your history you could possibly say the wheel, the car, the airplane, the television, the autonomous robot. All of these are great ideas that have different eras in history, but they all have something in common, these creations were all invented by engineers. Do not get the misconception that engineers have been around since the dawn of time but the concept of engineering itself has. Those great revolutionaries all had ideas and solved problems which are still qualities that engineers of this day and age use. Webster defines engineering as, “the work of designing and creating large structures or new products or systems by using scientific methods.” Those people created new products so they would today be considered engineers, but they are slightly different. What makes them different is the field that they would be considered a part of. The broadest one of the oldest forms is mechanical engineering, which is my future profession.
Mechanical engineering is a type of engineering which applies principles of physics and material science for the purpose of analyzing, designing, manufacturing and maintaining of mechanical systems (Gorp, 2005). It is involved with the production and usage of mechanical power in the operation of various machines and tools. Mechanical engineering is considered to be the most diverse engineering and has its breadth derived from the need to design tools and manufacture products which range from small individual parts to large systems. Mechanical engineering, as thought of by scholars, is related to Aerospace engineering, Manufacturing and Mechanical engineering (Van et al, 2011).
But I did have an interest in materials. However, mechanical engineering is a very broad field. Mechanical engineering has an area of specialization referred to as “Materials and Manufacturing” [4] It doesn’t focus so heavily on material development and design so much as material selection and the methods of manufacturing parts using those materials. For example, “How do you mass produce carbon fiber parts?” would be a problem that a mechanical engineer of this specialization might set out to solve. At this point I had also had some exposure to electrical engineering, through a Snap Electronics kit and obtaining my Amateur Radio License. Mechanical engineers do take some electrical engineering classes. This gives mechanical engineers an understanding of electrical control systems and electric motors [5], both of which play important roles in machinery
Engineering is a good fit for me because it involves lots of math and problem solving which are two of my favorite things to do. Also I am good at working with my hands and with other people. Mechanical engineering requires a good understanding of math and science