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1960-1969

Eddystone Station Unit #1
Society: ASMEMain Category: Electric, MechanicalSub Category: SteamEra: 1960-1969DateCreated: 1960#1 Industrial HighwayEddystoneState: PAZip: 19013Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-a-l/electric-power-production-steam/-226-eddystone-station-unit--1-%281960%29Creator: Combustion Engineering Inc., Westinghouse Electric

Operated by the Philadelphia Electric Company (PECO), now known as Exelon Corp., Eddystone Station Unit #1 is a 325 MW pulverized-coal-fired plant that pushed the technology of steam-electric generating plants. When built in 1960, engineers sought to make a more efficient plant using higher temperatures and pressures and larger machines. Previous experience at Philo 6 (Zanesville, Ohio, 1957) had demonstrated supercritical steam plants would work, so engineers pushed beyond that frontier to even larger machines and efficiencies.

YearAdded:
2003
Image Caption: Eddystone StationEra_date_from: 1960
Society: IEEEMain Category: ElectricalSub Category: Components, Circuits, Devices & SystemsEra: 1960-1969DateCreated: 1969-1971University of CaliforniaBerkeleyState: CACountry: USAWebsite: http://ghn.ieee.org/wiki/index.php?title=Milestones-Nomination_talk%3ABirthplace_of_the_SPICE_Circuit_Simulation_Program%2C_1971&lqt_archive_month=201007
"SPICE (Simulation Program with Integrated Circuit Emphasis) was created at UC Berkeley as a class project in 1969-1970. It evolved to become the worldwide standard integrated circuit simulator. SPICE has been used to train many students in the intricacies of circuit simulation.
YearAdded:
2011
Image Credit: Courtesy UCLAImage Caption: Birthplace of the SPICE Circuit Simulation ProgramEra_date_from: 1969
Society: IEEEMain Category: ElectricalSub Category: Nuclear and Plasma SciencesEra: 1960-1969DateCreated: 1968European Organization for Nuclear ResearchGenevaState: MeyrinZip: 1217Country: SwitzerlandWebsite: http://www.ieeeghn.org/wiki/index.php/Milestones:CERN_Experimental_Instrumentation,_1968Creator: Charpak, Georges

The 1992 Nobel Prize in physics was awarded to Georges Charpak, France, for his invention and development of detectors in high energy physics. Since 1959 Charpak had worked at CERN, the European laboratory for particle physics situated in the canton of Geneva in Switzerland. Charpak invented the multi - wire proportional chamber at CERN. The pioneering work was published in 1968. Largely due to his work particle physicists have been able to focus their interest on very rare particle interactions, which often reveal the secrets of the inner parts of matter.

YearAdded:
2005
Image Caption: CERN Experimental InstrumentationEra_date_from: 1968
Society: ASMEMain Category: MechanicalSub Category: Minerals Extraction & RefiningEra: 1960-1969DateCreated: 1962509 Northwest 60th StreetWest MineralState: KSZip: 66782Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/minerals-extraction-and-refining/-127-big-brutus-mine-shovel-%281962%29Creator: Bucyrus Erie Company
When built in 1962, this shovel was the second largest in the world. It was used for the removal of overburden in the surface mining of thin coal seams. In its lifetime, it recovered nine million tons of bituminous coal from depths of 20 to 50 feet for local electric power generation. Standing 160-feet high, weighing 5,500 tons, and moving at speeds up to two-tenths of a mile per hour, the machine stripped about a square mile each year.
YearAdded:
1987
Image Credit: Courtesy Flickr/KellyK (CC BY-SA 2.0)Image Caption: This picture of the Big Brutus Mine Shovel does not fully capture its immensity. To create a comparison, the average person would be slightly shorter than the treads, near the bottom.Era_date_from: 1962
Society: ASMEMain Category: MechanicalSub Category: Air and Space TransportationEra: 1960-1969DateCreated: 1968Saturn V Center

6225 Vectorspace Blvd
TitusvilleState: FLZip: 32780Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-a-l/air-and-space-transportation/-162-apollo-space-command-module-%281968%29, http://nssdc.gsfc.nasa.gov/planetary/lunar/apollo14info.htmlCreator: North American Aviation
The Apollo was the vehicle that first transported humans to the moon and safely back to earth. Nine lunar flights were made between 1968 and 1972. The command module, built by North American Aviation (at the time of launch, North American Rockwell Corporation), accommodated three astronauts during the mission. It was the only portion of the Apollo spacecraft system designed to withstand the intense heat of atmospheric re-entry at 25,000 mph and complete the mission intact. This command module at Rockwell flew as Apollo 14 in 1971.
YearAdded:
1992
Image Credit: Courtesy Flickr/Chad Nordstrom (CC BY 2.0) Image Caption: The real Apollo Space Command Module on display at the Kennedy Space Center's Saturn V Building.Era_date_from: 1968
Society: IEEEMain Category: ElectricalSub Category: CommunicationsEra: 1960-1969DateCreated: 1962Shirley's Bay Research CentreOttawaState: OntarioZip: K2KCountry: CanadaWebsite: http://www.ieeeghn.org/wiki/index.php/Milestones:Alouette-ISIS_Satellite_Program,_1962Creator: Defense Telecommunications Establishment Electronics Lab
"Driven by the need to understand the characteristics of radio communication in Canada's North, Canadian researchers focused on the exploration of the earth's upper atmosphere, the ionosphere. Canada's satellite program commenced with the launch of Alouette-I on September 29, 1962. Alouette-II followed in 1965, ISIS-I in 1969, ISIS-II in 1971. The Alouette/ISIS tracking antenna serves as a reminder of Canada's contribution to this international effort in space science.
YearAdded:
1993
Image Credit: Public Domain; NASAImage Caption: The The Alouette 1, the very first satellite constructed by CanadaEra_date_from: 1962
Split-Hopkinson Pressure Bar Apparatus
Society: ASMEMain Category: MechanicalSub Category: Materials Handling & ExtractionEra: 1960-1969DateCreated: 1962Southwest Research InstituteSan AntonioState: TXZip: 28510Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/materials-handling-and-excavation/-242-split-hopkinson-pressure-bar-apparatus-%281962%29, https://www.asme.org/getmedia/a82d72ab-e923-4aa9-a296-784c3fb7463a/242-Split-Hopkinson-Pressure-Bar-Apparatus.aspxCreator: Lindholm, Ulric

The Southwest Research Institute Split-Hopkinson Pressure Bar apparatus is a mechanical test instrument used to characterize the dynamic response of materials at high strain rates (typical of impacts and explosions).

The apparatus, based on devices invented by Bertram Hopkinson and Herbert Kolsky, was developed at SwRI in 1962 by Dr. Ulric Lindholm. Initially created to evaluate the behavior of metals under various conditions, the SwRI Split-Hopkinson Pressure Bar has since been applied to a wide range of materials.

YearAdded:
2006
Image Credit: Courtesy ASMEImage Caption: Split-Hopkinson Pressure Bar ApparatusEra_date_from: 1962
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