![]() ![]() Successful electrical engineers persevere in times of hardship. Of course, the more difficult something is, the more rewarding it becomes. You have to have a thorough understanding of your project, and copying/pasting errors onto Stack Overflow won’t always work. Debugging hardware is ever more intricate. Value at risk probability by john a. rice video lecture software#Software engineers at least have tools to debug their programs. Plain and simple: electrical engineering is not easy. What do you think it takes to be a “successful” electrical engineer? As electrical engineers, we are at the frontier of invention and innovation: we manipulate the world to build tomorrow we want, today. Man’s ability to harness nature is what makes it exciting to be alive. I think people take feats like this for granted. Because of this (somewhat idiotic) experiment, I can communicate this bloated story about our beloved founder, Ben Franklin, to you no matter how far away we are from each other. In pursuit of his curiosity, he ended up flying a kite with a key on it through a thunderstorm and electrocuting himself. How would you describe EE to friends or family who aren’t familiar with it?Ī long time ago, a crazy guy with a slightly-too-large forehead wondered what lightning was and if we could harness its energy. It was my first ever real engineering project, and I developed a true appreciation for EE. I ended up building a motorized camera slider that allows users to capture motion time-lapses, something that costs more than $1000 in industry. Furthermore, the final project is an incredibly creative assignment that offers students much leeway to design whatever they want. They really inspired me to explore the wonders of the major. Siddarth Deliwala are phenomenal professors and mentors. This may come as a surprise to some, since it is the most basic class Penn’s ESE department offers, but Dr. ![]() My favorite Electrical Engineering class would have to be ESE 111. What would you say is your favorite EE class? It’s a major that offers flexibility and depth, a true rarity. The curriculum is structured so that students take the introductory courses in Circuitry, Nanosystems, and Decision Systems afterwards, they’ll have the vocabulary and knowledge to determine whichever career path they are interested in while having a base understanding of all fields in EE. The EE discipline includes both the design and implementation of physical realizations (devices, circuits, antennas) and the mathematical tools for optimizing the exploitation of these systems (control theory, information theory, digital logic, signal processing).Įlectrical Engineering at Penn can easily be thought of as “The Umbrella Major.” It encompasses so many diverse subjects, allowing students to either specialize in one particular field or receive a broad understanding of different disciplines. EE’s have given us audio and video capture, processing, storage, transmission, and reproduction, wireless, wired, and optical communications, gigabit and terabit data storage systems, gigahertz processors, radar, microwaves, micro- and nano-fabrication, medical sensing, ultrasound, MRI, personal health monitoring, autonomous robot control, solar cells and energy harvesting, LCDs, flat screens, and projection displays. Electrically Engineered systems provide communication, sensing, actuation, display, storage, conversion, control, and computation. The societal impact of electrical engineering can be found in numerous domains, ranging from smartphones, to 4G wireless, to medical imaging, to electric as well as driverless cars, to the internet of things.ĮE includes the engineering of electrons, magnets, photons, electro-magnetic waves, quantum states, and electro-mechanical structures. This makes electrical engineering one of the broadest forms of engineering, resulting in very broad set of possible careers. Electrical engineering (EE) connects the physical world with the information world.Įlectrical engineers can apply physics and chemistry in modern nanotechnology devices, can encode and manipulate information in circuits and networks, and can mathematically understand and reason with large amounts of data in real time. ![]()
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