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1964

Air-Inflated, Double-Layer Polyethylene Greenhouse
Society: ASABEMain Category: Agricultural & BiologicalSub Category: StructuresEra: 1960-1969DateCreated: 1964Foran HallNew BrunswickState: NJZip: 08901Country: USAWebsite: https://www.asabe.org/awards-landmarks/asabe-historic-landmarks/air-inflated-double-layer-polyethylene-greenhouse-44.aspxCreator: Roberts, William J.

A crucial step in the evolution of modern plant agriculture was the development of low-cost, energy-efficient greenhouse structures that provide optimum growing conditions year-round. In 1964, Professor William J. Roberts developed the first air-inflated double-layer polyethylene greenhouse covering system at Cook College, Rutgers University.

YearAdded:
2004
Image Credit: Courtesy Flickr/Dwight Sipler (CC BY 2.0)Image Caption: A cat scales an air-inflated double-layered polyethylene greenhouse
Corliss steam engine
Society: ASMEMain Category: MechanicalSub Category: SteamEra: 1960-1969DateCreated: 19641300 Frenchtown RdEast GreenwichState: RIZip: 02818Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-a-l/electric-power-production-steam/-164-new-england-wireless-and-steam-museum, https://www.asme.org/getmedia/311b4c58-18b4-4842-9f8b-18a866e6ad13/164-New-England-Wireless-and-Steam-Museum.aspxCreator: Merriam, Robert

Stationary steam engines, once the prime movers of industry, powered trains, ships, and mills in an age when there was no electric power. By the 19th century, American industry, especially in England, was rapidly outgrowing the capacity of the ater power that had been its principal prime mover. The need for a new power source inspired an intense development of the steam engine, the work of inventors directed mainly at imporving fuel efficiency by reducing steam consumption. The leader in this effort was George H.

YearAdded:
1992
Image Credit: Courtesy Wikicommons/The-daffodil (CC BY-SA 4.0)Image Caption: Corliss steam engineEra_date_from: 1964
Tokaido Shinkansen
Society: ASMEMain Category: MechanicalSub Category: Rail TransportationEra: 1960-1969DateCreated: 1964Tokyo Station
State: Tokyo-toZip: 100-0005Country: JapanWebsite: https://www.asme.org/about-asme/who-we-are/engineering-history/landmarks/211-tokaido-shinkansenCreator: Shima, Hideo

In 1964, Shinkansen (which means "new trunk line" and is also known as the bullet train) between Tokyo and Shin-Osaka became the world's first high-speed railway system, running at a maximum business speed of over 200 km/h (130-160 mph). 

YearAdded:
2000
Image Credit: Courtesy Flickr/Roger Wollstadt (CC BY-SA 2.0)Image Caption: Tokaido ShinkansenEra_date_from: 1964
JR Central 700 Series Shinkansen set C40 on the Tōkaidō Shinkansen between Kakegawa and Shizuoka Station
Society: IEEEMain Category: ElectricalSub Category: TransportationEra: 1960-1969DateCreated: 1964Tokyo to ShimonosekiNagoyaState: Ch?bu regionZip: 100-0005Country: JapanWebsite: http://www.ieeeghn.org/wiki/index.php/Milestones:Tokaido_Shinkansen_%28Bullet_Train%29,_1964Creator: Shima, Hideo

The Tokaido Shinkansen, the world's first inter-city, high-speed railway system, began operations on its route of over 500 kilometers between Tokyo and Osaka more than thirty years ago, in 1964. After its establishment, the Tokaido Shinkansen made a major contribution to Japan's rapid post-war economic growth as the country's principal transportation artery. Today (1997), more than two hundred and eighty Shinkansen trains operate between Tokyo and Osaka each day, with eleven departures an hour at peak times, and a daily ridership of more than 360,000 passengers.

YearAdded:
2000
Image Caption: JR Central 700 Series Shinkansen set C40 on the Tōkaidō Shinkansen between Kakegawa and Shizuoka StationEra_date_from: 1964
Society: ASMEMain Category: MechanicalSub Category: Air and Space TransportationEra: 1960-1969DateCreated: 1964Marshall Space Flight CenterHuntsvilleState: ALZip: 35808Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-a-l/air-and-space-transportation/-170-advanced-engine-test-facility-at-marshall-%2819Creator: von Braun, Wernher
The Advanced Engine Test Facility was built in 1964, three years after President John F. Kennedy committed the United States to world leadership in aeronautical science. Conceived and designed by Wernher von Braun, the first director of the Marshall Space Flight Center, this facility was used to perform static tests on the booster of the Saturn V rocket, which launched Apollo 11 to the moon on July 16, 1969. The stand has four concrete legs, each four feet thick and rising 144 feet to a steel superstructure supporting a 200-ton crane.
YearAdded:
1993
Image Credit: Courtesy ASMEImage Caption: Saturn V Rocket being lifted onto the A-2 Test Stand at NASA's John C. Stennis Space CenterEra_date_from: 1964
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Innovations

The Advanced Engine Test Facility was built in 1964, three years after President John F. Kennedy committed the United States to world leadership in aeronautical science. Conceived and designed by Wernher von Braun, the first director of the Marshall Space Flight Center, this facility was used to… Read More
JR Central 700 Series Shinkansen set C40 on the Tōkaidō Shinkansen between Kakegawa and Shizuoka Station

The Tokaido Shinkansen, the world's first inter-city, high-speed railway system, began operations on its route of over 500 kilometers between Tokyo and Osaka more than thirty years ago, in 1964. After its establishment, the Tokaido Shinkansen made a major contribution to Japan's rapid post-war…

Read More
Tokaido Shinkansen

In 1964, Shinkansen (which means "new trunk line" and is also known as the bullet train) between Tokyo and Shin-Osaka became the world's first high-speed railway system, running at a maximum business speed of over 200 km/h (130-160 mph). 

The nose profile, starting with the original…

Read More
Corliss steam engine

Stationary steam engines, once the prime movers of industry, powered trains, ships, and mills in an age when there was no electric power. By the 19th century, American industry, especially in England, was rapidly outgrowing the capacity of the ater power that had been its principal prime mover.…

Read More
Air-Inflated, Double-Layer Polyethylene Greenhouse

A crucial step in the evolution of modern plant agriculture was the development of low-cost, energy-efficient greenhouse structures that provide optimum growing conditions year-round. In 1964, Professor William J. Roberts developed the first air-inflated double-layer polyethylene…

Read More

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