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- Radio for All, 1922 - Hugo Gernsback was the publisher of the first science fiction and radio electronics magazines. His 1922 book "Radio for All" is an accessible primer on radio history and operation. In it, he also imagined a holistic, technology-driven future where radio waves controlled aircraft and autonomous ships, delivered newspapers, acted as telemedicine and radiotelephone portals -- and even powered roller skates!
- 1922
- Collections - Artifact
Radio for All, 1922
Hugo Gernsback was the publisher of the first science fiction and radio electronics magazines. His 1922 book "Radio for All" is an accessible primer on radio history and operation. In it, he also imagined a holistic, technology-driven future where radio waves controlled aircraft and autonomous ships, delivered newspapers, acted as telemedicine and radiotelephone portals -- and even powered roller skates!
- Motorola Clock Radio, 1956 -
- 1956
- Collections - Artifact
Motorola Clock Radio, 1956
- Zenith Saratoga Radio-Phonograph Combination, Model H664, 1950-1952 -
- 1950-1952
- Collections - Artifact
Zenith Saratoga Radio-Phonograph Combination, Model H664, 1950-1952
- Emergency Hand-Crank Radio and Power Generator, circa 2010 - People who want to be prepared for disasters and power disruptions-or even for a post-oil society-can buy nonelectric, noncomputerized devices like this emergency radio. The radio is powered by a hand crank and includes a light and a cellphone charger.
- circa 2010
- Collections - Artifact
Emergency Hand-Crank Radio and Power Generator, circa 2010
People who want to be prepared for disasters and power disruptions-or even for a post-oil society-can buy nonelectric, noncomputerized devices like this emergency radio. The radio is powered by a hand crank and includes a light and a cellphone charger.
- Cabinet for W.N.Y. SE-95A Radio Receiver, 1917 -
- 1917
- Collections - Artifact
Cabinet for W.N.Y. SE-95A Radio Receiver, 1917
- Marion Armstrong Presents the First Portable Superheterodyne Radio Receiver to Henry Ford Museum, September 22, 1967 - This photograph shows the first portable superheterodyne radio receiver, designed by Edwin Armstrong. Superheterodying was a major communications discovery made by Armstrong. High and low frequencies were mixed to produce powerful, selective radio waves. Following his untimely death, Edwin's wife Marion Armstrong continued to preserve his legacy; she donated this radio to The Henry Ford museum in 1967.
- September 22, 1967
- Collections - Artifact
Marion Armstrong Presents the First Portable Superheterodyne Radio Receiver to Henry Ford Museum, September 22, 1967
This photograph shows the first portable superheterodyne radio receiver, designed by Edwin Armstrong. Superheterodying was a major communications discovery made by Armstrong. High and low frequencies were mixed to produce powerful, selective radio waves. Following his untimely death, Edwin's wife Marion Armstrong continued to preserve his legacy; she donated this radio to The Henry Ford museum in 1967.
- Telefunken Wireless Radio Receiver with Crystal Detector, 1912-1917 - This radio equipment was used at the German-built Tuckerton Wireless Station in New Jersey. A powerful 820-foot antenna communicated with an identical station in Germany. National security concerns during WWI led to the seizure of Tuckerton by the U.S. government in 1917. It is cited to be the origin of information leaks leading to the RMS <em>Lusitania</em> disaster through U-boat attack.
- 1912-1917
- Collections - Artifact
Telefunken Wireless Radio Receiver with Crystal Detector, 1912-1917
This radio equipment was used at the German-built Tuckerton Wireless Station in New Jersey. A powerful 820-foot antenna communicated with an identical station in Germany. National security concerns during WWI led to the seizure of Tuckerton by the U.S. government in 1917. It is cited to be the origin of information leaks leading to the RMS Lusitania disaster through U-boat attack.
- Zenith Royal 555 Sun Charger Transistor Radio, 1965 - This radio was made portable thanks to the miniaturizing effect of transistors. The forward-thinking design of the Sun Charger radio also used rechargeable NiCad batteries, which drew their power from solar energy filtered through its "miracle sunray handle." Zenith was a key client of Mel Boldt and Associates, designers of this device.
- 1965
- Collections - Artifact
Zenith Royal 555 Sun Charger Transistor Radio, 1965
This radio was made portable thanks to the miniaturizing effect of transistors. The forward-thinking design of the Sun Charger radio also used rechargeable NiCad batteries, which drew their power from solar energy filtered through its "miracle sunray handle." Zenith was a key client of Mel Boldt and Associates, designers of this device.
- Zenith Radio Nurse, 1938 - The first baby monitor was created by Zenith president, Eugene McDonald, Jr. Concerned for his daughter's safety following the 1932 Lindbergh baby kidnapping, McDonald's device allowed monitoring of children after bedtime. The "Guardian Ear" transmitter was installed in a child's bedroom while the "Radio Nurse" receiver was placed near parents. Sculptor Isamu Noguchi created the receiver's aesthetic, which looked like an abstracted image of a nurse with cap.
- 1938
- Collections - Artifact
Zenith Radio Nurse, 1938
The first baby monitor was created by Zenith president, Eugene McDonald, Jr. Concerned for his daughter's safety following the 1932 Lindbergh baby kidnapping, McDonald's device allowed monitoring of children after bedtime. The "Guardian Ear" transmitter was installed in a child's bedroom while the "Radio Nurse" receiver was placed near parents. Sculptor Isamu Noguchi created the receiver's aesthetic, which looked like an abstracted image of a nurse with cap.
- Ford and Fordson Power Exposition Caravan and Radio Truck, Seaside, Oregon, 1922 -
- August 1922 - October 1922
- Collections - Artifact
Ford and Fordson Power Exposition Caravan and Radio Truck, Seaside, Oregon, 1922