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1940s

Self-Leveling Control for Hillside Combine
Society: ASABE Main Category: Agricultural & Biological Sub Category: Mechanization Era: 1940s DateCreated: 1945 Hanson Industries Spokane Valley State: WA Zip: 99216 Country: USA Website: https://www.asabe.org/awards-landmarks/asabe-historic-landmarks/self-leveling-control-for-hillside-combine-50.aspx Creator: Hanson, Raymond A.

In 1941, near Palouse, Washington, Raymond A. Hanson conceived of a self-leveling mechanism for hillside combines. On the steep hills in the Pacific Northwest, leveling is necessary to save grain because of the gravity grain separation mechanism. Before the Hanson invention, manual leveling required a person to stand on the combine platform and adjust the machine to the lay of the land - a hot, tedious job. The grain-saving attributes of Hanson's invention were probably more important than the labor saving, although both were valuable.

YearAdded:
2008
Image Credit: Courtesy Wikicommons/Scoty6776 (CC BY 3.0) Image Caption: A 2011 AGCO Gleaner S77 Tritura combine demonstrates its hillside self-leveling technology Era_date_from:
Original USDA-ARS Experimental Watersheds
Society: ASABE Main Category: Aerospace & Aviation Sub Category: Drainage & Watershed Era: 1940s DateCreated: 1942 Agricultural Engineering Building - Ohio State University Columbus State: OH Zip: 43210 Country: USA Website: https://www.asabe.org/awards-landmarks/asabe-historic-landmarks/original-usda-ars-experimental-watersheds-58.aspx, https://naldc.nal.usda.gov/download/12341/PDF Creator:

In the mid 1930's, the USDA Soil Conservation Service (SCS) realized the importance of hydrologic processes on agricultural fields and watersheds and determining their impact on soil erosion, floods, water resources, and the agricultural economy. In response, the SCS Hydrologic Division established experimental watersheds in Coshocton, Ohio, Hastings, Nebraska, and Riesel, Texas, and operated them until 1954 when the watersheds were transferred to the newly created Agricultural Research Service (ARS). 

YearAdded:
2013
Image Credit: Image Caption: Active experimental watersheds and rain gauges at the USDA‐
ARS Grassland, Soil and Water Research Laboratory near Riesel, Texas.
Era_date_from:
Society: Main Category: Sub Category: Era: 1940s DateCreated: 1942 Baton Rouge Refinery Baton Rouge State: LA Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/fluidbedreactor.html Creator: Standard Oil Corporation of New Jersey [now Exxon Corporation]

The first commercial circulating fluid bed reactor, PCLA #1 (Powdered Catalyst Louisiana), went on stream on May 25, 1942, in the Baton Rouge Refinery of the Standard Oil Company of New Jersey (now ExxonMobil Corporation). This first use of powdered catalysts in continuous operation allowed the efficient cracking of heavy gas oils to meet the growing demand for high-octane fuels. Today, fluid bed reactors are in use worldwide for the manufacture of fuels, chemical intermediates and plastics.

The plaque commemorating the development reads:

YearAdded:
1998
Image Credit: Courtesy ACS/Keith Lindblom Image Caption: National Historic Chemical Landmark plaque installed at the site of the PCLA #1 at ExxonMobil’s Baton Rouge Refinery.
Era_date_from:
paints
Society: ACS Main Category: Chemical Sub Category: Era: 1940s DateCreated: 1949 Philadelphia State: PA Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/acrylicemulsion.html Creator: Rohm and Haas [now The Dow Chemical Company]

Developed by Rohm and Haas in the 1940s, water-based acrylic emulsion technology filled a need for easy-to-use household paints for a growing suburban population in the United States following World War II. This aqueous technology required less preparation to use, was easier to clean up, had less odor, and performed better than or equal to paints made with solvents. It was also a leap forward in acrylic chemistry.

YearAdded:
2008
Image Credit: Courtesy Flickr/United Soybean Board (CC BY 2.0) Image Caption: From plastics to paints it changed our world
Era_date_from:
Howard Clifford running off the Tacoma Narrows Bridge during collapse
Society: ASCE Main Category: Civil Sub Category: Bridges Era: 1940s DateCreated: 1940s Tacoma State: WA Zip: Country: USA Website: http://www.asce.org/project/tacoma-narrows-bridges(1)/ Creator: Eldridge, Clark

Taken together, the 1940 and 1950 Tacoma Narrows bridges mark a significant turning point in the design of long-span suspension bridges. The original 1940 structure was designed with one of the shallowest and narrowest stiffening elements of any long-span suspension bridge yet built. The structure failed dramatically in a rather moderate 42 mph windstorm on 7 November 1940, only four months after opening for traffic.

YearAdded:
Image Credit: Image Caption: Howard Clifford running off the Tacoma Narrows Bridge during collapse Era_date_from:
Society: ASME Main Category: Mechanical Sub Category: Era: 1940s DateCreated: 1947 George Eastman House Rochester State: NY Zip: 14607 Country: USA Website: https://www.asme.org/about-asme/engineering-history/landmarks/258-george-eastman-house-technology-collection Creator: Eastman, George

 

The oldest and most comprehensive collection of photographic and cinematic technology

In 1888, George Eastman created the Kodak camera, the first camera designed to use roll film. The camera's simplicity and user friendly mechanism revolutionized amateur snapshot photography and in 1892, he founded the Eastman Kodak Company, in Rochester, New York.

YearAdded:
2015
Image Credit: public domain Image Caption: Era_date_from:
Society: Main Category: Sub Category: Era: DateCreated: State: Zip: Country: Website: Creator:

On December 23, 1947, in the Bell Telephone Laboratories at Murray Hill, New Jersey, physicists John Bardeen and Walter Brattain spoke over the world’s first transistor-amplified telephone circuit, a quarter-inch-tall device composed of a thin strip of gold foil sliced in two in order to create two metal contacts over a crystal of germanium. Their success was the culmination of eight years of research conducted alongside their team leader, 37-year old William B. Shockley, and triggered a wave of new electronics.

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Society: Main Category: Sub Category: Era: DateCreated: State: Zip: Country: Website: Creator:

In early 1945 Laurence Marshall contemplated the imminent financial ruin of his company. Raytheon had enjoyed a lucrative business supplying the U.S. military with magnetrons, electron tubes that generated microwaves, a key component in the nascent technology of radar and the detection of enemy airplanes. But World War II seemed likely to end soon, and with it Raytheon’s lucrative military contracts. Raytheon needed to come up with something it could sell to civilians.

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Development of Diagnostic Test Strips
Society: ACS Main Category: Chemical Sub Category: Medical Era: 1940s DateCreated: 1941 ETHOS Science Center Elkhart State: IN Zip: Country: USA Website: https://www.acs.org/content/acs/en/education/whatischemistry/landmarks/diagnosticteststrips.html, https://www.acs.org/content/dam/acsorg/education/whatischemistry/landmarks/diagnosticteststrips/development-of-diagnostic-test-strips-commemorative-booklet.pdf Creator: Free, Al, Free, Helen

It is difficult to recall a time when doctors and patients had trouble tracking the presence of glucose and other substances in urine and blood. Lack of sufficient measurement tools made it difficult to manage a host of diseases, including diabetes as well as other metabolic diseases and kidney and liver conditions. Today, self-management of these diseases is an easier process because of the development of diagnostic test strips by Alfred and Helen Free and their research team at Miles Laboratories.

 

The text of the plaque commemorating the development reads:

YearAdded:
2010
Image Credit: Image Caption: Advert for Ames home urine testing kit Era_date_from:
Subscribe to 1940s
Development of Diagnostic Test Strips

It is difficult to recall a time when doctors and patients had trouble tracking the presence of glucose and other substances in urine and blood. Lack of sufficient measurement tools made it difficult to manage a host of diseases, including diabetes as well as other metabolic diseases and kidney…

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The oldest and most comprehensive collection of photographic and cinematic technology

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Howard Clifford running off the Tacoma Narrows Bridge during collapse

Taken together, the 1940 and 1950 Tacoma Narrows bridges mark a significant turning point in the design of long-span suspension bridges. The original 1940 structure was designed with one of the shallowest and narrowest stiffening elements of any long-span suspension bridge yet built. The…

Read More
paints

Developed by Rohm and Haas in the 1940s, water-based acrylic emulsion technology filled a need for easy-to-use household paints for a growing suburban population in the United States following World War II. This aqueous technology required less preparation to use, was easier to clean up, had…

Read More

The first commercial circulating fluid bed reactor, PCLA #1 (Powdered Catalyst Louisiana), went on stream on May 25, 1942, in the Baton Rouge Refinery of the Standard Oil Company of New Jersey (now ExxonMobil Corporation). This first use of powdered catalysts in continuous operation allowed the…

Read More
Original USDA-ARS Experimental Watersheds

In the mid 1930's, the USDA Soil Conservation Service (SCS) realized the importance of hydrologic processes on agricultural fields and watersheds and determining their impact on soil erosion, floods, water resources, and the agricultural economy. In response, the SCS Hydrologic Division…

Read More
Self-Leveling Control for Hillside Combine

In 1941, near Palouse, Washington, Raymond A. Hanson conceived of a self-leveling mechanism for hillside combines. On the steep hills in the Pacific Northwest, leveling is necessary to save grain because of the gravity grain separation mechanism. Before the Hanson invention, manual…

Read More
Fall 2010 | Volume 25, Issue 3
On December 23, 1947, in the Bell Telephone Laboratories at Murray Hill, New Jersey, physicists John Bardeen and Walter Brattain spoke over the world’s first transistor-amplified telephone circuit, a quarter-inch-tall device composed of a thin strip of gold foil sliced in two in order to create two…
Fall 2010 | Volume 25, Issue 3
In early 1945 Laurence Marshall contemplated the imminent financial ruin of his company. Raytheon had enjoyed a lucrative business supplying the U.S. military with magnetrons, electron tubes that generated microwaves, a key component in the nascent technology of radar and the detection of enemy…

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