Some articles that I have written or significantly contributed to are:
- John A. Eddy
- Balfour Stewart
- Elias Loomis
- Charles Brooke
- Richard Christopher Carrington
- Julius Erasmus Hilgard
- Charles Vincent Walker
- Kew Observatory
- Colaba Observatory
- Automatic registration of instruments by photography
- Science and Forensics Photography
- Auroral events of historical significance
- Wikipedia: An Account of the Construction of the Self-Recording Magnetographs at Present in Operation at the Kew Observatory of the British Association.
- Wikisource: An Account of the Construction of the Self-Recording Magnetographs at Present in Operation at the Kew Observatory of the British Association.
- Internet Archive: An Account of the Construction of the Self-Recording Magnetographs at Present in Operation at the Kew Observatory of the British Association.
- http://commons.wikimedia.org/wiki/Image:SSN_Predict_NASA.gif
- http://commons.wikimedia.org/wiki/File:SSN_Predict_NASA_Pre2004.gif
- http://commons.wikimedia.org/wiki/Image:SSN_Predict_SWPC.gif
- Hurricane Studies Of New York Harbor
- Always Learning
- Education As A Service
- Education As A Service (EduAAS)
- Raven Test
- Raven's Progressive Matrices
- Guardian Comments
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NASA Sunspot Number Prediction
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NASA Sunspot Number Prediction Pre 2004
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SWPC Sunspot Number Prediction
Airship accidents involving combustion of hydrogen lift gas
edit- June 12, 1897, Germany, Wölfert Ariship Deutschland, Tempellhof Field, Berlin, Germany.[1]
- July 15, 1919, Royal Navy Airship NS-11, North Sea off Norfolk England.[4][5]
- June 19, 1920, US Navy Airship D-1, Goodyear Wingfoot Lake Airship Base, Suffield Township, Portage County, Ohio.[13]
- Aug 31, 1921, US Navy Airship D-6[16], Naval Air Station Rockaway, New York City, NY.[17]
- Oct 17, 1922, US Army Airship C-2[18][19], Brooks Field, San Antonio, Texas.[20]
- May 6, 1937, German LZ 129 Hindenburg, Lakehurst Naval Air Station, Manchester Township, New Jersey.[21][22][23]
The D-6[16] was built by the Naval Aircraft Factory, Philadelphia, Pa., but her design[24] was sufficiently different to separate her from the other five D-class airships. It featured a further improved control car (the "D-1 Enclosed Cabin Car) which had a water tight bottom for landings on water and internal fuel tanks. The D-6[16] was burned in the Naval Air Station Rockaway hangar fire[17] of 31 August 1921 along with two small dirigibles, the C-10 and the H-1 and the kit balloon A-P.
Plant Patents
editPlant patents PP12, PP13, PP14, PP15, PP16, PP18, PP41, PP65, PP66, PP235, PP266, PP267, PP269, PP290, PP291 and PP1041 were issued to Burbank posthumously.
Modern commercial varieties
editThe poor taste and lack of sugar in modern garden and commercial tomato varieties resulted from breeding of tomatoes which ripen uniformly red. This change occurred after discovery of a variety in the mid 20th century which ripened uniformly which was then widely cross-bred to produce attractive red fruit without the typical green ring surrounding the stem on uncross-bred varieties. Prior to general introduction of this trait tomatoes were able to produce more sugar during the process of ripening and were sweeter and more flavorful.[25][26]
In the 1930’s the US Department of Agriculture (USDA) at Cheyenne Horticultural Field Station, in Cheyenne Wyoming was conducting research, under the direction of Dr. Myron F. Babb Ph.D., on the growing vegetables under extreme environmental conditions. Tomatoes were one of the research vegetables and during the curse of the research it was discovered that tomatoes with the mutant gene for “Uniform Color” (i.e. Uniform Ripening Factor) were less susceptible to environmental extremes and more likely to produce a crop, even when grow by amateur gardeners. In the 1930’s the Cheyenne Station produced many lines of tomatoes with the “Uniform Color” gene. The source for this mutant gene was the heirloom verities: “Danmark Tomato” and “Globe Tomato” which were obtained from Norway and the Colorado in the United States respectively.
Babb obtained, through the USDA Division of Foreign Plant Introductions, a number of varieties that matured considerably earlier, although their fruit size and yields were less than the standard varieties. H. O. Werner at the agricultural experiment substation in North Platte worked jointly with Babb, most notably on the Danmark tomato variety obtained from a seed company in Grimstad, Norway. Danmark proved among the best varieties in setting fruit under extreme climatic conditions and the earliest variety to produce fruit acceptable for the commercial market. In addition, by importing relatively hardy varieties from places such as Siberia and pollinating them with the more common varieties, Babb and his successors managed to breed and release three new varieties ̶ Alpine, Colorado Red, and Highlander ̶ of which only the last is still available. … With the coming of World War II, station staff accelerated cooperative efforts to discover and recommend vegetables that did best, especially in Victory Gardens.
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Your Victory Garden
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Grow Your Own Be Sure
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Plant A Victory Garden Our Food Is Fighting
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Shoot To Kill
Cold-hardy Hibiscus moscheutos cultivars
editMany cold-hardy Hibiscus cultivars are hybrids of Hibiscus moscheutos, Hibiscus coccineus, Hibiscus laevis, Hibiscus militaris and Hibiscus palustris with indeterminate genetic contributions from each parent species. One source of information on these hybrids are Plant Patents. A search of Google Patents for Plant Patents referencing Hibiscus moscheutos identifies the ancestry of many popular cultivars of Hibiscus moscheutos. On interest is that the ancestry of un-patented but popular cultivars such as Lord Baltimore are identified in the patent of its progeny Lady Baltimore. While Hibiscus militaris and Hibiscus palustris are both referenced in Plant Patents, Hibiscus militaris is now classified as a sub-species of Hibiscus laevis and Hibiscus palustris is classified as a sub-species of Hibiscus moscheutos. Because some Plant Patents reference the historic species name, they will be used here to facilitate searching.
A carful reading of the plant patents reviles that Hibiscus breeders do not provide extensive details of their breeding strategies which could cover several decades when applying for a plant patent. Generally an outline of the breeding history of the seed and pollen parents and grandparents is provided, together with their breeding objectives, which can be quite useful. Hibiscus breeders do not preclude the possibility of open or self pollination. However, recent research[27] has show that artificial pollination just after the Hibiscus flower has opened using a high pollen load will ensure that most of the resulting seeds are from the selected pollen parent. Early Hibiscus breeders were likely aware of this from their experience with Hibiscus and other flowering plants and used it to their advantage.
Plant Patent Searches by Cold-hardy Hibiscus Species:
- Plant Patents referencing Hibiscus moscheutos listed by oldest date first or by Thumbnail view.
- Plant Patents referencing Hibiscus coccineus listed by oldest date first or by Thumbnail view.
- Plant Patents referencing Hibiscus laevis listed by oldest date first or by Thumbnail view.
- Plant Patents referencing Hibiscus militaris listed by oldest date first or by Thumbnail view
- Plant Patents referencing Hibiscus palustris listed by oldest date first or by Thumbnail view.
Compared to their cold-hardy North American cousins the tropical Hibiscus rosa-sinensis of East Asia, which are also known as the Chinese hibiscus or China Rose, are the high fashion models of the Hibiscus world but don’t ask these delicate betties to venture north of USDA Zone 10. It has long been the dream of Hibiscus breeders to combine the best qualities of the East Asian and North American Hibiscus but that dream has proven elusive until recently. If one searches the Plant Patents for references to Hibiscus rosa-sinensis and any of the North American Hibiscus species, the following results are obtained.
- Plant Patents referencing tropical Hibiscus rosa-sinensis and its cold-hardy North American cousins listed by oldest date first or by Thumbnail view.
Unfortunately the first thirteen (13) patents from 1994 through 2001 are false positives in that they compare Hibiscus rosa-sinensis with the North American Hibiscus species but don’t use Hibiscus rosa-sinensis for breeding. The three plant patents issued from 2002 are true hybrids between Hibiscus rosa-sinensis, Hibiscus moscheutos, Hibiscus coccineus and Hibiscus laevis and were issued to Fleming's Flower Fields using the trademark TROPICAL-HARDY ™. In the three plant patents the Hibiscus rosa-sinensis hybrids are reported to be cold-hardy to -30ºF (-34ºC).The next Google Plant Patent search just finds the hybrids registered from 2002.
- Plant Patents referencing tropical Hibiscus rosa-sinensis and its cold-hardy North American cousins listed from 2002 by date or by Thumbnail view.
A new age of cold-hardy Hibiscus cultivars is dawning for the lowly Swamp-rose Mallow.
Works in progress
editSunspot Predictions
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SWPC Sunspot Number Prediction
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NASA Sunspot Number Prediction
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John A. Eddy
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Jack Eddy
Animation Viewing Directions
editDirections for Viewing GIF Animations in Windows IE.
- To view the animation in Internet Explorer (IE) full screen mode press the F11 key.
- To return to the normal IE view press the F11 key a second time.
- To expand the graphic to its full size pass the pointer over graphic and right click using the magnifying class pointer with the “+” sign.
- The stop the animation press the “ESC” key.
- The restart the animation press the “F5” key.
References
edit- ^ Wölfert Airship Deutschland 1897
- ^ Severo Airship Pax 1902 Framework
- ^ Severo Airship Pax 1902
- ^ The New York Times, July 16, 1919, Wednesday, Page 1, British Airship Burns with Crew; Twelve Lost When the NS-11 Falls Flaming Into the North Sea.
- ^ The New York Times, July 27, 1919, Sunday, Editorial, Page 39, Helium for Flying; Noninflammable Gas May Yet Be Produced in Quantities and at a Cost Suited for Dirigibles.
- ^ Goodyear Airship Wingfoot Express Chicago 1919
- ^ Goodyear Airship Wingfoot Express Chicago 1919 Crash
- ^ 1919 July 21: Dirigible (Balloon) Crash
- ^ The New York Times, July 22, 1919, Tuesday, Page 1 11 Killed, 27 Hurt in Blazing Blimp's Fall in Chicago
- ^ The New York Times, July 23, 1919, Wednesday, Page 15 Jail Two in Inquary in Blimp Explosion; Pilot Boettner and Director Young of Goodyear Company Held in Chicago.
- ^ The New York Times, July 24, 1919, Thursday, Page 3, Suspect Radio Fired Blimp; Chicago Dirigible Passed Over Naval Wireless Before Plunge.
- ^ The New York Times, July 25, 1919, Friday, Page 11, Blimp Owners Offer Pay.; Goodyear Company to Reimburse for Loss in Chicago Accident.
- ^ A Brief History of the Wingfoot Lake Airship Base
- ^ The New York Times, July 8, 1921, Friday, Page 1, Big Navy Dirigible Burned in Flight; Flames Destroy the C-3 at Hampton Roads
- ^ The New York Times, August 25, 1921, Thursday, Page 3, $3,000,000 Hanger Stands Empty Here; Wrecked Airship, Awaited at Lakehurst, Would Have Been "Docked" on Vast Scale.
- ^ a b c U.S. Navy Goodyear Airship D-6 1921
- ^ a b NY Times Sept. 1, 1921, Page 2, Biggest Navy Blimp Burns with 3 More.
- ^ U.S. Army Goodrich Airship C-2 ~ Navy Goodyear C-3
- ^ U.S. Army Goodrich Airship C-2
- ^ The New York Times, October 18, 1922, Wednesday, Page 2, Army Airship C-2 Explodes and Burns; Gust of Wind Dashes Her Against Door and Rips Gas Bag as She Starts Flight.
- ^ The New York Times, May 7, 1937, Friday, Page 1, Ship Falls Ablaze; Great Dirigible Bursts Into Flames as It Is About to Land.
- ^ The New York Times, May 7, 1937, Friday, Page 1, Airship Like a Giant Torch On Darkening Jersey Field; Routine Landing Converted Into Hysterical Scene in Moment's Time--Witnesses Tell of 'Blinding Flash' From Zeppelin.
- ^ The New York Times, May 7, 1937, Friday, Page 19, Great Crowds Here Watched Ship, With Many Natables Aboard, Sail to Her Doom.
- ^ Powell, Ann L. T.; Nguyen, Cuong V.; Hill, Theresa; Cheng, Kalai Lam; Figueroa-Balderas, Rosa; Aktas, Hakan; Ashrafi, Hamid; Pons, Clara; Fernández-Muñoz, Rafael; Vicente, Ariel; Lopez-Baltazar, Javier; Barry, Cornelius S.; Liu, Yongsheng; Chetelat, Roger; Granell, Antonio; Van Deynze, Allen; Giovannoni, James J.; Bennett, Alan B. (June 29, 2012). "Uniform ripening Encodes a Golden 2-like Transcription Factor Regulating Tomato Fruit Chloroplast Development". Science. 336 (6089): 1711–1715. doi:10.1126/science.1222218. PMID 22745430. Retrieved June 29, 2012.
Modern tomato...varieties are bred for uniform ripening (u) light green fruit phenotypes to facilitate harvests of evenly ripened fruit. U encodes a...factor...which determines chlorophyll accumulation and distribution in developing fruit. [The factor] influences photosynthesis in developing fruit, contributing to mature fruit characteristics and suggesting that selection of u inadvertently compromised ripe fruit quality in exchange for desirable production traits.
- ^ Gina Kolata (June 28, 2012). "Flavor Is Price of Scarlet Hue of Tomatoes, Study Finds". The New York Times. Retrieved June 29, 2012.
- ^ American Journal of Botany. 2000;87:1656-1659, Effects of sequential pollination on the success of "fast" and "slow" pollen donors in Hibiscus moscheutos (Malvaceae)