Is a Career in Engineering for you?
To become an Engineer, you must earn a Degree in Engineering after passing Science. Some students attend a three year Diploma programme after to earn Diploma in Engineering and then join directly the second year of Degree programme. Many University provides the integrated B.Tech programme for the student
What Do Degree Engineer and Diploma Engineer Do?
Diploma Engineer often works with engineers as part of an engineering team. While engineers plan and design engineering projects, Diploma Engineer translate the engineer’s designs into actual products. If you look around your everyday environment, you’ll see many things that engineers designed, and that Diploma Engineer helped make a reality. For example, while engineers design bridges, it is Diploma Engineers who supervise bridge construction, overseeing the work of the construction workers. In this way, Diploma Engineers bridge the gap between those who formulate the design and those who implement it. They must have a theoretical background to work directly with engineers or architects, yet they must also have practical, hands-on experience to oversee the work of craftspeople.
Diploma Engineers work for major technological companies. They are employed across the technological spectrum but are best suited to areas that deal with application, manufacturing, implementation, engineering operation, sales, and production, as opposed to the conceptual design and research functions performed by many engineering graduates.
This is the irony that lots of parents pressurises their ward to choose the Engineering career without realizing the potential of their wards. This leads to failure as without the proper aptitude and interest the success in engineering as a career is not possible. Due to this reason the career of lot of students are spoiled. So, before selecting Engineering as a career it is very essential to assess the ability. Here, we are giving a small test to find out whether you are capable to pursue the career in Engineering.
Assess your self
- Quiz #1: Do You Fit the Profile?
- Quiz #2: Test Your Aptitude
Quiz #1: Do You Fit the Profile?
Would an engineering career fit your interests and lifestyle? Answer these questions and find out.
- Do you get good grades in math and science?
- Do you enjoy knowing how things work?
- Do you ever think of new or better ways to do things?
- If you get a gift that says “Assembly required”, do you put it together yourself?
- Do you like to work with computers and play video games?
- Do you like to do mazes and jigsaw puzzles?
- Do you usually make sound decisions, and do people trust your judgment?
- Can you express yourself easily and clearly?
- Do you work well with others?
- Do you like to know “why”?
Quiz #1 Answers:
If you answered “Yes” to most of the questions, your potential for success in engineering is high. Let’s examine each of the 10 questions to see how a “yes” answer helps identify you as a potential engineer.
- Math and science are basic tools in engineering.
- Wanting to know “how it works” is essential to finding better ways to design things.
- The desire to figure things out and “do it better” is an important drive in engineers.
- If you are curious to assemble and want to explore the possibility of how the system works, make you do the assembly yourself and this shows your inclination to do something new and doing something new is what is expected from the Engineers.
- Computers and video games provide an introduction to working with graphics as well as to problem solving.
- Analytical problem solving, the skill you use when working on mazes and puzzles, is among the most important aspects of engineering work.
- As an engineer, your ability to focus on the problem at hand and make knowledgeable comments and decisions will help you gain respect and will make you a valuable member of the engineering team.
- Engineers must be able to explain ideas and decisions to all audiences.
- Engineers work with technologists and technicians as a team. They must be able to work with people who have different backgrounds and special interests.
- Wanting to know how things work is something that drives all engineers. This curiosity encourages engineers to break complex problems into more simple ones that will be easier to handle.
Quiz #2: Test Your Aptitude
The Engineering Aptitude Test helps you assess your ability to study engineering. Here’s a sampling:
1. If (x + a)(x + b) = x2 + 5x + 6 for all x, then what is the value of ab?
2. Three identical cubes with edges 2 inches long are placed one on top of the other. What is the volume, in cubic inches, of the resulting rectangular solid?
- none of the above
3. A 45-inch piece of ribbon was cut into 3 pieces. The second piece was 3 times as long as the first, and the third piece was 2 times as long as the second. How long, in inches, was the third piece?
4. Which rear wheel will turn faster when the
tricycle is steered in the direction indicated by the
- No difference
5. In which circuit will the bulb burn brighter?
- No difference
6. What does the phase diagram of carbon dioxide shown here reveal about carbon dioxide?
- Tremendous pressure is needed to liquefy carbon dioxide at -78° C.
- Carbon dioxide cannot exist as a liquid at normal atmospheric pressure.
- Carbon dioxide cannot exist as a gas below -78° C.
- The triple point of carbon dioxide occurs at -78° C and 1.0 ATM pressure.
Quiz #2 Answers:
(x + a) (x + b) = x2 + ax + bx +ab = x2 + (a + b)x + ab = x2 + 5x + 6. Therefore, ab = 6.
The volume of a cube is where s is one edge of the cube. So, each of the three cubes has a volume of 8, and the volume of the three stacked cubes is 24.
Let x = the first piece of ribbon. The second piece of ribbon has a measure of 3x. The third piece of ribbon is 2(3x) or 6x. The sum of the three pieces is 45, so x + 3x + 6x = 45 and x = 4.5. Therefore, the length of the third piece is 6(4.5) = 27.
As the tricycle turns in the direction indicated by the arrow, wheel II must travel a greater distance than wheel I in the same amount of time. It must, therefore, turn faster.
In example I, the voltage across the bulb is doubled because the batteries are connected in series. In example II, the voltage is that of a single battery because they are connected in parallel. Because the voltage is doubled in example I, the light will burn brighter.
A horizontal line that passes through the one atmosphere mark on the vertical axis will not pass through the liquid area of the diagram. Therefore, carbon dioxide cannot exist as a liquid at atmospheric pressure.