My decision to pursue PhD in electrical and computer engineering at the university of, my life time goal is to do a great research in electromagnetic field theory. I can full fill it by doing research in electrical and computer engineering. I expect my PhD program to help me to learn more about my chosen field, and give me the right imaginative thinking ability in electromagnetic field theory.
Interest in electromagnetic field theory in mind from my school days. During my 8th standard I learnt about potential energy and kinetic energy. During 9th and 10th standards I learnt about electric field energy and magnetic field energy of sub atomic particles. I always had a doubt in my mind why only two energies we are talking about while transferring energy, why not three or more energies. And during my intermediate my teachers thought same, it’s created more interest towards mechanical engineering to study much on potential and kinetic energies responsible for transfer of energy from one place to other place through mechanical system.
At the same time my mind also started thinking on electric and magnetic field energies, as days are passing chemistry makes me much interest on chemical reactions and subatomic particles. In chemical reactions bonding between atoms is possible with exchange of electrons during this process there may be realise or absorption of heat; I know that heat is an electromagnetic radiation. My thought processing day by day bends me towards chemical reactions and electromagnetic fields. But problem with chemistry is that it can’t give physical nature of reaction it just tells about how new compounds are formed. At the same time I had title bit knowledge on electric energy with inductance and capacitance. My in...
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...s, Arduino. Along with all this works again I chosen three of students for giving GATE coaching it is still continuing. I hope that at least one of my students will defiantly get admission in IIT’s. With my best knowledge in English in got best scores in GRE and IELTS. During these three and half years of my teaching I learnt a lot more basics and understanding on subjects. With my better understanding I concluded that systems made of god are inherently having balance in two energies (light, heat, atom etc), but that systems made of humans have their own control for balancing of two energies and proper energy flow through systems. Finally my words telling, I have born as human being with thinkable mind as compared to other creatures. I will understand nature and apply its principles into my research field to make better living world around me with more human values.
Another science that relates to potential energy is kinetic energy. Kinetic energy is the energy something has because an object is moving. Dropping a soccer ball converts the potential energy to kinetic energy. In all, energy makes things happen which is why energy can also be called the
Electricity is an interesting subject. There is so much you can learn from it, like how our lights turn on or how we make cell phones. This is all a mystery until we finally get a little bit of information in our brains. I've just read two articles, "Energy Story" and "Conducting solutions". I also watched a video called Hands-on Science with Squishy circuits. I learned so much valuable information from these resources.
James Clark Maxwell discovered relationships between electricity and magnetism many of which are used in the Electromagnetic Theory. More information on the relationship between magnets and electricity can be found here.
Over the third quarter of physical science we have discussed heat, energy, electricity and magnetism. I have decided to do my paper over these four topics. If you have any questions please hold them till the end.
Energy is an odd concept, it is something that is neither here nor there yet has a profound impact on everything, both organic and inorganic. However, energy surrounds us in more ways than is commonly believed; it is possible that matter is only a form of energy. In fact, according to Albert Einstein, matter and energy are different forms of the same thing (“Do Antimatter and Matter Destroy Each Other?”). Through analyzing the superposition of bosons (particles without mass) and fermions (particles with mass), transformations between energy and matter, the creation of mass, and the mass of energy, the existence of what humans consider to be matter will be questioned.
As an engineering student, design, develop and test electrical equipments is the major purpose of all time. In other words, electrical engineer is concerned with using electricity to transmit electric power. In electrical engineering, there are extensive subfields such as power engineering, control system and signal processing. It is also worth to point out the difference between electrical engineering and electronic engineering. According to the research, electronic engineering is a major that deal with the electronic system such as computers and radar, to be more specific, electronic engineers are concerned with using electricity to process information.
Electromagnetic energy can be explained by treating the spread of energy over a range of wavelengths. The radiation can be measured by finding the energy falling per second that is Watts per square meter for each band of 1 micrometer wavelength.
A fascination for Science & Technology and keen interest in the ever-growing world of technology motivated me to take up engineering. The power of research and delivering it for the growth of Society is what makes me interested in the technology side of science. I choose to major Computer science Engineering with an intense urge to delve into this challenging field. During my under graduation program I learned the various fundamentals of Computer science Engineering which together with practical course works reinforced my interest.
Increasing our knowledge of Physics, using the scientific method to make observations and test hypotheses is essential to unlocking the secrets of the universe. Energy is one of the most fundamental elements of the universe. Throughout history, man has endeavored to expose, understand, and explain how and why things work. This drive to expand our understanding eventually led to the development of the scientific method and what is commonly considered to be the king of the sciences, Physics. The effects of energy on the physical world are of great interest to Physicists. The scientific method was developed during the seventeenth century. It is based on collaborative efforts of the great scientists and mathematicians who lived during that period such as Francis Bacon, Galileo Galilee, Johannes Kepler, and Rene’ Descartes. These men realized that true knowledge must be based on empirical observation and verified by experimentation. Recently, physicists have been searching for a unifying theory to bring all of the fields of Physics together under a single umbrella theory expressed as a short equation. This so called unifying field theory will usher in a new era in physics and greatly increase our understanding of the workings of the universe Physics is the king of science, and Sir Issac Newton is the king of Physics. Physics deals with matter, motion, force, and energy.
At this day and age our society has become extremely dependent on electricity. It is essential to our everyday lives, and its importance is often overlooked. To really understand how reliant we have become on electricity, imagine a world where there are no computers, there are no forms of vehicular transportation, and there are no phones! These things are so vital to our current style of living and if there was no electricity, this would be a completely different world. Magnetism is equally important! Without magnets, there would not be any electric motors, speakers, computer hard drives, X-ray and MRI machines, and many other things. Both electricity and magnetism are going to play a vital role in the future of our transportation.
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...
Learning is a continuous process and the day that you stop learning is the day that you start decreasing your rewards and lower levels of satisfaction. My ardent desire to acquire knowledge has motivated me to pursue higher studies at graduate level, and to take up a career in research in industry. I have taken this decision after carefully considering my academic background, profound interest in research and strong aptitude for problem solving.
I develop and deliver technical solutions to collection of applications used by retail giants across the globe. My responsibilities have given me scenarios to put on my problem solving and interpersonal skills in real life situations. Frequent interactions with client aroused in me, an urge to get into a management consultant role. But, with time I realized that I have to upgrade my skill-sets and make myself more relevant and attractive to the job market. I also realized that I have to diversify my aspects of management such as leadership, entrepreneurship and finance etc. and Broad MBA will equip me with these skills and will increase chances of succeeding in my goals, manifold. After accomplishing virtuous knowledge of IT industry, I believe that Broad MBA program will help me learn more about business problems drawn from real-life scenarios and prepares me to take the next step toward career success. I believe Broad is more than just a place to learn. Through Broad MBA, I will not only shorten my learning cycle but also get a chance to learn from world class faculty, established curriculum and diverse peer groups. This innovative pedagogy will help me put the big foot forward towards my goals, build a professional and personal network and edify me as where to look for information and how to interpret it, when required. The Broad is well respected for the quality of its program, which has been recognized for its cutting edge design and delivery, with rankings that indicate its place among the top tier programs around the world. It will help me create a unique learning experience and it will be my passport to new world of opportunities. While global economic vagueness make me, insecure but I believe that now these challenges wil...
Electrical engineering, I believe, is the only field where one’s work becomes the most instrumental part of one’s mundane activity and life, and the output produced stays forever to credit. My perception is that, this field requires a lot of patience, perseverance and management skills in order to be successful. The connection that electrical engineering offered between me and this world is the fact that you can become a person who can impact so many lives. This made me pursue Electrical Engineering. After four years of undergraduate studies in Electrical Engineering, I feel completely satisfied with my decision to choose this branch of engineering as my career option as it has revealed the most pragmatic and down-to-earth approach to tackling
Energy is everywhere around us and everywhere you go, it is also the property of all object. When you throw a ball, that’s energy. When you turn on the lights in your house, that’s energy. When you’re charging your phone, that’s energy. Everything you do today, is the cause of energy.