Radiowaves are the oscillations of magnetic waves by varying the modulation to generate different signals which can be converted into information such as sound, video, or digital communication. As these waves pass through a conductor, an alternating current is generated and this can be converted into usable information.
As one could see from the picture above, radio waves are the the electromagnetic waves with wave lengthes between 1mm and 10 Mm. This converts to a frequency range of 300Ghz to 30Hz, respectively.
Nearly everyone uses radio waves in some form day after day. The technologies that depend on them is vast and ever-growing. These technologies range from cordless phones and garage door openers to radar and microwave ovens. Radio is not a dead technology either. It is constantly having research devoted to it and new technologies and innovations are coming about from this research. The trend towards wireless internet and more versatile cellular phones are just some examples. Ironically, the fundamentals of radio waves is relatively simple (atleast when compared to the vast array of technologies that now implement it).
Cordless phones use radio waves to allow individuals to walk around freely in their home without the need to be bound by a cord while talking over their land-based phone line.
Cell phones are a miracle to modern day living. Unlike previous eras where communication was done strictly across a hard-wired telephone line, cell phones now give the freedom to those that can afford them a radio-based uplink to the rest of the world. Not only are they for voice communication, but they also allow for transmission of virtually any kind of digital data.
Microwave ovens are another great invention from the 20th century. They use radio waves in a specific frequency range in which water, fat, and sugar molecules happen to absorb and convert directly into heat.
Radio waves were first discovered in 1887, but radio itself was initially invented by Italian Guglielmo Marconi in 1895 (1). His biggest mentioned success was in 1901, when he managed to broadcast the letter “S” across the Atlantic Ocean (1). However, he focused primarily on point-to-point transmissions, not large scale broadcasts from one point (F). As such, three American inventors - Lee De Forest, Edwin Howard Armstrong, and David Sarnoff - took credit for making radio as it is today a success (F). De Forest was born and raised in Alabama and he thought of everything in terms of patents and eventually held more than 300, but many claimed that he simply stole the inventions of others (2). In 1900, he patented a device to enhance weak signals and in 1902, he formed the De Forest Wireless Telegraph Company (1). In the same year. Reginald Fessenden, a Canadian, invented the “electrolytic detector”, which later became the spade detector that brought De Forest so much fame (F). In 1904, John Fleming invented the oscillation valve, which later became De Forest’s audion, and De Forest won the gold medal at the St. Louis World’s Fair for his “spade detector” (F). De Forest gained quite a bit of fame by broadcasting music live from the Eiffel Tower and from the Metropolitan Opera; however, many believed that this was a scam and that he had actually had the device broadcasting the signal only a few blocks away (F). In 1906, he envisioned bringing music and voices to all American households, but as it turns out Canadian inventor Fessenden had already broadcasted a Christmas greeting and music to the crew of a ship off the coast of Canada on Christmas Eve a year earlier (F). In 1912, Armstrong became prominent by inventing regeneration, wh...
The radio’s frequency is much greater than microwave, radio has 300 GHz to 3 KHz whereas microwave has 300 GHz to 3MHz.
Radio is device that use technology of using radio waves to transfer information, such as sound, by using the properties of electromagnetic energy waves transmitted through space, such as their phase, amplitude, frequency, or pulse width. If radio waves passing an electrical conductor, the oscillating fields induce an alternating current in the conductor. The information in the waves can be get back into its original form.
Rogers Communication started with a vision that "radio is an electric pipeline" by Edward S. Rogers, Sr. In 1925 Mr. Rogers, Sr. invented the world's first alternating "current (AC) radio tube."1 The radio tube was a huge break through in communication technology and in radio reception, and as a result of the invention; radios became common medium of communication.
Radio-wave technology is one of the most important technologies used by man. It has forever changed the United States and the world, and will continue to do so in the future. Radio has been a communications medium, a recreational device, and many other things to us. When British physicist James Clerk Maxwell published his theory of electromagnetic waves in 1873, he probably never could have envisioned the sorts of things that would come of such a principle. His theory mainly had to do with light waves, but fifteen years later, a German physicist named Heinrich Hertz was able to electrically generate MaxwellÕs ÒraysÓ in his lab. The discovery of these amazing properties, the later invention of a working wireless radio, and the resulting technology have been instrumental to AmericaÕs move into the Information Age. The invention of radio is commonly credited to Guglielmo Marconi, who, starting in 1895, developed the first ÒwirelessÓ radio transmitter and receiver. Working at home with no support from his father, but plenty from his mother, Marconi improved upon the experiments and equipment of Hertz and others working on radio transmission. He created a better radio wave detector or cohere and connected it to an early type of antenna. With the help of his brothers and some of the neighborhood boys he was able to send wireless telegraph messages over short distances. By 1899 he had established a wireless communications link between England and France that had the ability to operate under any weather conditions. He had sent trans-Atlantic messages by late 1901, and later won the Nobel prize for physics in 1909. Radio works in a very complicated way, but hereÕs a more simple explanation than youÕll get from most books: Electromagnetic waves of different wavelengths are produced by the transmitter, and modulations within each wavelength are adjusted to carry ÒencodedÓ information. The receiver, tuned to read the frequency the transmitter is sending on, then takes the encoded information (carried within the wave modulations), and translates it back into the sensory input originally transmitted. Many of the men who pioneered radio had designs for it. Marconi saw it as the best communication system and envisioned instant world-wide communication through the air. David Sarnoff ( later the head of RCA and NBC) had a vision of Òa radio receiver in every homeÓ in 1916, although the real potential of radio wasnÕt realized until after World War I.
Cell Phones have many advantages two of them being they are wireless and easy way to get a hold of family when needed. There are also disadvantages to them. Things such as they are a leading cause cancer because they
The innovation of Radio is one of the great innovations of human kind. After the first broadcasting station of KDKA in Pittsburgh, the Radio has come across different improvement in its coverage area and technology. The demand was dramatically increased since then. The urban and the village farmers were excited by its use. It became part of everyday life as one way of getting information of social, economic, and political developments. Even today these services are becoming diversified qualitatively and quantitatively. At this time, the options to get these all services from radio are challenged by the information technology especially the internet. Today’s Americans have several options to get connected and informed than many other countries. Even today for some nations Radio is still not easy furniture to get. Similarly, its use is highly demanded as part of their daily life. The role of Radio in the old and contemporary times is mainly for information, advertisement, and entertainment purposes.
Cell Phones: A portable phone that uses wireless technology to send and receive phone signals. This technolog...
By the time the 20th century arrived, vacuum tubes were invented that could transmit weak electrical signals which led to the formation of electromagnetic waves that led to the invention of the radio broadcast system (750). These vacuum tubes were discovered to be able to transmit currents through solid material, which led to the creation of transistors in the 1960’s (750).
Every invention ever known to man had pioneers or people who contributed to the creation of the product. Radio had many pioneers that allowed for its creation and their names are Heinrich Hertz, Nikola Tesla, Ernst Alexander, Edwin Armstrong, Guglielmo Marconi, Lee DeForest, Frank Conrad, Reginald Fessenden, and Edward Armstrong. It all started with a German physicist named Heinrich Hertz who in 1884 proved that you could transmit and receive electric waves wirelessly. Hertz thought that the work he had done had no use whatsoever but little did he know that what he done is considered the fundamental building block of radio, and that is the reason why every frequency measurement is named after him (Short). In that same year a Serbian-American inventor named Nikola Tesla came to the U.S and sold patents to his inventions to a man named George Westinghouse. After that Tesla established his own lab which is where he built the tesla coil , an induction coil that is still used in radio today (Short). The next progression of radio focused on more than just the transmission of waves, the new focus was transmission of speech. The first to begin to add speech into the radio mix was Ernst Alexander, a Sweden born inventor who developed the first alternator to make speech transmission possible (Short). This was so new to the s...
FM is since the frequency is varied, station takes up more room on the band.
frequency carrier while the user is moving within a telephone service area. In addition to telephony, modern mobile phones support a variety of other services, such as text messaging, email, Internet access, short-range wireless communications, business applications, gaming, and photography. Cell Phones which offer these and more general computing capabilities are referred to as smartphones. Cell Phones are now a way of life in the generation we live in and call home today, and cell phones have changed and benefited our world. By means of texting , making calls, gaming applications, saving people’s lives , helping people while
Cell phone technology has come far since it’s creation. Cell phones have developed from devices simply used to make calls that were the size of a brick,
Scientists and engineers have been able to enhance our lifestyles by understanding and using the Laws, Concepts and Principles of Optics and how they are applied in Optical Instruments. The key concepts are:
Many people are predicting that cell phones will do so much more than voice communication in the future. They will hold keys to bank accounts and be used as remote controls to unlock doors to our house or car.