About course: General science refers to the core subjects of science and not a specialized or applied study of a specific area of discipline of science. Basic science is development and establishment of infrastructure to aid understanding the prediction and explanation of phenomena in the natural world. The discipline of basic science is also referred to as pure science or fundamental science. The sub disciplines for basic sciences are Physics, Chemistry and Mathematics. There are ample scopes of research in the basic science subjects.
Core subjects:The core subjects of basic sciences are as follows:
- English
- Mathematics
- Physics
- Chemistry
English
The importance of English for engineering students
English is very important because it is widely spoken all around the world. Knowing English allows people to enjoy their life and work no matter where they are. For engineering students whose mother tongue is not English, mastering English is even more important, not only for their academic life but also for their prospective career.
In order to master the engineering knowledge and skills better, engineering students should own the English language competence. Most of the scientific papers or journals in the world are written in English. Most of the engineering graphs are also marked in English. Moreover, most engineering professors in various universities are also conducting their lectures in English. Hence, engineering students should at least master the basic English ability to deal with the countless English lectures, tutorials, labs, projects and papers. Finally, they have to submit their important theses, still in English.
When engineering students graduate from the college and become real engineers, they will find that English appears even more crucial than it used to be. Engineers usually work in groups since their task can seldom be solved by an individual. The property of their work determines that being an engineer needs to cooperate and communicate with different people from different part of the world. For non-native English speakers, unfortunately, most of the engineers speak English as the first language or the working language. In order to understand and coordinate with their colleagues and accomplish their projects fluently, engineers have to speak good English.
All in all, non-native English engineering students should try hard to improve their English ability, which could help to make both their school life and career more successful and enjoyable.
Mathematics:
In simple terms, Mathematics is the science of numbers. It studies the quantity, structure, space, change and other properties. Mathematics was developed from counting, calculation, measurement, and the systematic study of the shapes and motions of physical objects.
Mathematics is
one of the oldest and most elementalsciences in the world. Math is used widely in a range of professions; however, it is of particular importance in the field of industry and manufacturing. Mathematicians fall into two broad categories; theoretical or pure mathematics and applied mathematics.
Mathematicians working in the manufacturing sector often find that they have to combine both pure and applied mathematics in order to remain functional at their jobs. Math is used in many ways and is applied in sectors of management, operations, administration, as well as production.
The fact of the matter is that regardless of what you think or feel about maths as a subject, its grasp is inescapable â no matter how hard you run away from it, it`s everywhere, from the material, physical world we all operate in, and to the material items that we use, touch, or feel every day. And here are 6 reasons why maths is so important when it comes to manufacturing the things we use for daily living.
Decision Management And Analysis
Mathematics is useful for decision-making processes or when a manufacturing group needs to determine the best alternative to solve a problem. For instance, mathematical theories and models such as the multi-attribute theory and the network flow model can help individuals assess how many products need to be manufactured at a particular point.
Mathematics For Industrial Engineering Applications
Many manufacturing plants and industries are vulnerable to disruptions resulting from design characteristics, as well as differing operation philosophies. Disruptions can be long lasting and can affect the success of the business. As such, it is
crucial to understandthe manufacturing system in order to probe for weaknesses and predict possible outcomes. This can only be achieved with mathematical proficiency.
Mathematical Programming Models
Mathematical programming is essential as it is used to provide solutions to a wide range of industrial problems. For instance, mathematical programming can be used to develop an optimization model that can determine the optimal lifecycle of a motor vehicle.
Inventory Management
Among the large category of issues that many mathematical models can address is inventory. Inventory requires money, which means it is often subjected to mismanagement. In a large supply chain such as that of factories, having a knowledge of when to order for equipment, how much should be ordered and the amount of money it will cost to order the products is essential.
Ultimate Solutions To Industrial Design Problems
Numerous mathematical models have been used to take care of
a range of industrial problems. Some mechanical design issues that may be solved using mathematics include the design of cars and airplanes using techniques such as computation fluid dynamics. Every mechanical component manufactured industrially, such as machinery, robots, automobiles, and even automated garage doors â mathematics guarantees that the production methods used, as well as the exacting measurements for these products,
are the best ones available.
Maths On An Industrial Scale For Planning
Factories face numerous aggregate planning problems that are solved through mathematics. For instance, if one needs to make a decision regarding employees and factory capacity over a long period of time, one may use mathematical techniques such as linear programming.
Physics:
Physics is a part of natural science which involves the study of matter and its motion through space and time along with the concepts of energy and force. In a broader term, it is the general analysis of nature which studies the behavior of the universe.
Engineering physicsor
engineering sciencerefers to the study of the combined disciplines of
physics,
mathematicsand
engineering, particularly computer, nuclear, electrical, electronic, materials or mechanical engineering. By focusing on the
scientific methodas a rigorous basis, it seeks ways to apply, design, and develop new solutions in engineering.
Unlike traditional engineering disciplines, engineering science/physics is not necessarily confined to a particular branch of science, engineering or physics. Instead, engineering science/physics is meant to provide a more thorough grounding in
applied physicsfor a selected specialty such as
optics,
quantum physics,
materials science electronics,
nanotechnology,
micro fabrication microelectronics,
computing,
photonics,
mechanical engineering,
electrical engineering,
nuclear engineering,
biophysics,
control theory,
aerodynamics,
energy,
solid-state physics, etc. It is the discipline devoted to creating and optimizing engineering solutions through enhanced understanding and integrated application of mathematical, scientific, statistical, and engineering principles. The discipline is also meant for cross-functionality and bridges the gap between theoretical science and practical engineering with emphasis in
researchand development, design, and analysis.
It is notable that in many languages the term for "engineering physics" would be directly translated into
Englishas "technical physics". In some countries, both what would be translated as "engineering physics" and what would be translated as "technical physics" are disciplines leading to academic degrees, with the former specializing in nuclear power research, and the latter closer to engineering physics.
[5]In some institutions, an engineering (or applied) physics major is a discipline or specialization within the scope of engineering science, or applied science.
Physics is the natural science that involves the study of matter and its motion and behaviour through space and time, along with related concepts such as energy and force. Thus, despite some branches of engineering might not put
total emphasison this science, most of them imply a great deal of it, making it fundamental for the study of engineering. Physical concepts, such as
Newtonian mechanics, electricity, thermodynamics, optics,etc., play a role of great importance in the process of innovation and updating, crucial in the development of engineering branches (i.e.: electrical engineering, automotive engineering, mechanical engineering, and so on)
Chemistry:
Chemistry is the study of composition, properties and behavior of matter. The subject also studies atoms and their interactions with other atoms and the properties of chemical bonds. Chemistry is also known as âthe central science` because it bridges other natural sciences like physics, geology and biology with each other.
Engineering Chemistry Overview
Do you like problem solving and learning how things work? Are you fascinated by the chemical reactions of substances? A major in Engineering Chemistry will help you explore your interests.
Students who major in Engineering Chemistry learn about two different fields and the way these fields interact. You will take classes on topics such as chemistry, biochemical engineering, computer science, applied mathematics, physics, and biology to learn the skills to use chemistry to solve engineering problems. You will graduate with the ability to aid the development of electronic materials, troubleshoot manufacturing dilemmas, lead projects while collaborating with engineering management, and much more.
Required Skills
Engineering Chemistry students should have a strong background in math and science. Previous experience in these fields will help students start using these principles in everyday situations. Strong analytical and deductive reasoning skills will allow students to analyze issues within the engineering field and help create various solutions. Teamwork and communication skills will aid students as they work in teams to observe engineering systems and solve any issues.
Graduates who pursue a career in Engineering Chemistry can expect to work full time, often in a laboratory or office setting. Occasionally, professionals will have to travel to make onsite observations, improve or maintain engineering systems.
Employers place an emphasis on previous relevant experience making internships, summer jobs, or participation in cooperative engineering programs beneficial to students. Some colleges or universities will have summer programs that allow students to travel to other areas of the country or world while learning more about the field.
Although a bachelor's degree will allow for Engineering Chemistry graduates to work entry-level jobs, many will continue their education to receive a master's. This advanced degree along with previous experience will allow professions to perform research and development or possibly attain a higher payer job.
Careers
Graduates with a degree in Engineering Chemistry work in a variety of locations. Since engineering is a large part of many industries, graduates have the ability to go into many different professions. They are equipped with the skills to employ chemistry to solve engineering problems, making their skills useful in fields such as architecture, engineering, chemical manufacturing, medical manufacturing, and scientific research.
With this field growing at a slower than average rate, graduates will face competition when searching for jobs after graduation. Since the demand for engineering chemists varies depending on the demand for certain products, employment in certain industries may be higher than others.
For more information and syllabus refer the website:: sbtetap.gov.in
.jpg)
.jpg)
.jpg)
.jpg)
.jpg)
.jpg)
