Best Electrical Engineering Schools In Ohio – Infographics | See all blog posts below See all blog posts for Online Master of Science in Electrical Engineering
From light bulbs and televisions to cell phones and GPS, modern advances in electrical engineering have enlightened, informed and connected the world. But did you know that electrical engineering dates back to Thomas Edison? Discover the many ways electrical engineering has shaped society for thousands of years.
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For more information, see the infographic below, created by Ohio University’s online Master of Science in Electrical Engineering program.
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In 1831, Michael Faraday invented a crude electrical generator known as an electric dynamo that enabled the industrial use of electricity. Faraday’s electric dynamo produced a constant eclectic current, which was a major problem at the time. The dynamo allowed the invention of other electricity-powered conversion devices.
Two scientists, American Thomas Edison and British scientist Joseph Swan, invented the light bulb in 1878. The pair invented the light bulb in their respective countries and illuminated homes and streets with electricity In 1882, Edison further improved the light bulb based on his earlier direct current system to turn on the first electric street lights in New York.
In 1887, Nicola Tulsa improved Faraday’s direct current system by discovering alternating current. Nicola also discovered the polyphase distribution system, which was believed to be useful for transmitting power to AC electric motors. Tesla’s discovery caught the attention of industrialist and inventor George Westinghouse, who was so impressed that he began working with Tesla. This collaboration was as important as it was the cause of the national adoption of electricity in America.
In 1928, Philo Farnsworth invented the most famous and important household appliance. In this year, Farnsworth demonstrated electric television to the public for the first time. Public exposure led to television broadcasts in several countries in the early 1930s. However, with the end of World War I, subscriptions to broadcast television around the world increased rapidly.
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During the First World War, the danger of air raids increased. Countries became more concerned and took deliberate steps to develop technology to detect air strikes. With radar technology, countries simulate air strikes. With the outbreak of World War II, radar and radar became crucial as they provided a competitive advantage to enemy forces. The military has invested its own resources in developing this technology. When the United States entered World War II in 1941, it had two systems ready for war. These are the 105-MHz SCR-270 and the 205-MHz SCR-268.
In 1941, Konrad Zuse created the world’s first programmable computer called the Z3. These developments were important because they saw the development of disruptive technologies elsewhere, including NASA’s Apollo missions. The researchers built on the Z3’s superior arithmetic capabilities.
Compact devices are based on these transistors. The trio of William B. Shockley, John Bardeen and Walter Brattain revived the transistor in 1947. The discovery of the transistor led to Jack Kilby’s integrated circuit in 1959. The personal computers we use today came from the development of the microprocessor in 1968 by Marcian Hoff at Intel.
The invention of satellite in 1979 made modern long distance telephone service possible. Advances in modern satellites led to satellite communications being launched in Tokyo in the 1990s. During this time, the cost of commercial satellite transmission channels fell dramatically, and satellite communications such as cell phones, satellite radio, television, and satellite Internet increased.
How Electrical Engineering Has Shaped The Modern World
In 1981, RFC 791 introduced Internet Protocol (IP) version 4, while RFC 793 introduced Transmission Control Protocol (TCP). These two enabled the creation of TCP/IP, which is very relevant to the Internet today.
In the late 1990s and early 2000s, demand for the Internet grew rapidly. As a result, the demand for higher communication bandwidth has increased. Internet Protocol traffic has grown at an unprecedented rate that exceeds Moore’s Law. Fiber optic cables are increasingly used because they can carry 100 times more data than conventional power amplifiers. Fiber increases internet access for billions of people around the world.
At the beginning of the 21st century, the development and use of smartphones increased dramatically. These phones were first used in Japan in 1999, but in the mid-2000s they entered the world and became the standard type of mobile phones today. Advances in mobile internet connectivity and Wi-Fi continue to give users access to data streams.
Scientists studied the conditions of the hostile Martian environment between 2004 and 2012. This was possible thanks to the wonders of modern technology, Mars Opportunity and the invention of the Curiosity rovers.
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Continued advances in electronic engineering are poised to develop flexible smartphones with holographic displays. This will allow some users to view 3D images from different sides of the gadget without using 3D glasses. Currently, drones are used for military purposes, photography and reconnaissance. However, advances in drone technology will allow for a new line of wall-climbing drones that can overcome any obstacle using a landing mechanism. Smart watches of the future will have special rings and sensitive receivers that convert touch contacts into signals, so there is no need to touch the screen. The electrical engineers of the future must work together in industries.
Ohio University was founded in 1804 and is the ninth oldest public university in the United States. Located in Athens, Ohio, the school serves more than 35,000 students on its 1,850-acre campus and online. This prestigious organization is ranked by many publications
, one of the best educational forces and academic values in the country. Ohio University offers a variety of programs in 10 different colleges, including 250 undergraduate programs, 188 graduate programs, and 58 doctoral programs. Ohio University is regionally accredited by the North Central Association of Colleges and Schools.
The Ohio State University has an excellent reputation based on the quality of its programs, faculty and alumni. If you are a professional looking to align yourself with one of the best, look no further than The Ohio State University’s prestigious on-campus and online programs. A degree in electrical and computer engineering from Ohio State opens a wide variety of doors. range of career opportunities. Electrical and computer engineering graduates will face a bright and challenging future in research, design, development, production, marketing, management and other specialized jobs.
Electrical Engineering Careers
Our program provides a solid foundation in high-tech problem solving and allows engineers to expand their careers into other fields. Electrical and computer engineering degrees can lead to careers in pre-medicine, business, entrepreneurship, law, art, design, sound engineering, international studies and music. Many people become entrepreneurs and start new businesses by applying electrical and computer engineering systems and technology to new areas. About 15% of our graduates go on to graduate school to earn a master’s or doctoral degree in electrical or computer engineering.
Businesses large and small hire Ohio State electrical and computer engineering graduates for positions in the automotive, aerospace, telecommunications, entertainment, military, manufacturing and other industries. There are also jobs in many public institutions.
Many employers hire graduates from our programs and some of the most popular include: American Electric Power, Apple, AT&T, Battelle, Boeing, Cisco Systems, General Electric, IBM, Intel, Lockheed Martin, Marathon Petroleum, Mettler Toledo, Microsoft, Motorola , Northrop Grumman, Procter & Gamble, Raytheon, Texas Instruments and Verizon Wireless.
Not only the reputation is high, but the salary is also high. The average salary for electrical and computer engineers with a bachelor’s degree is around $61,200 per year*. The average offer for advanced degree students is $74,100 for graduate students and $96,600 for graduate students.
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Salaries vary by occupation, but the average annual salary for electrical engineers in May 2010 was $84,540. The median wage is the wage half of the workers in a given occupation earned more than, and half earned less. The lowest 10 percent earned less than $54,030, while the top 10 percent earned more than $128,610.
As of May 2010, the average salary for electronics engineers was $90, $170. The lowest 10 percent earned less than $57,860, and the highest 10 percent earned more than $135,080.
2011-2012 average offers to Ohio State graduates according to The Ohio State University College of Engineering Career Services
. The Career Services office is open to all engineering students