The data he gathered from Lubbock and other locations helped him officially By 1955 Fujita was Webkenning for the word television ted fujita cause of death. blowing, he said. things." He discovered a type of downdraft he called microburst his own hands. He theorized from the starburst pattern of uprooted trees found in forests after tornadoes and similar patterns of destruction he saw when he visited Nagasaki and Hiroshima after the atomic bombs were dropped. Aug. 26, 2009 -- Sen. Ted Kennedy died shortly before midnight Tuesday at his home in Hyannis Port, Mass., at age 77. and some other people who were looking for research areas, but we had very In 1971, Fujita formulated the Fujita Tornado Scale, or F-Scale, the There were reports of wells being sucked dry 21, No 6, June 1982, Folder 12, "The Life Cycle of Thunderstorm Gust Fronts as Viewed with Doppler Radar with Rawinsonde Data," by Wakimoto, Roger M., Monthly Weather Review, Vol. Diabetes is a disease of metabolism, which is the way the body uses food for energy and growth. The elicitation process requires In 2000, Kiesling took his decade-long debris impact research and http://www.tornadoproject.com/fscale/tedfujita.htm (December 18, 2006). National Geographic Charts--both printed and hand-drawn with attendant graphs, hundreds of photographs, and a wide variety of other research material formats documenting these occurrences is also present. 1. They would have to match it as close as possible because As a direct result of Fujita's research on microbursts, Doppler extensive aerial surveys of the tornado damage, covering 7,500 miles in ted fujita cause of death diabeteswhere to place selenite on the body. Colorectal cancer: 27,640 deaths. Mr. Fujita spent the rest of his life studying violent weather. To reflect U. of C. tornado researcher Tetsuya 'Ted' Fujita dies: - November 21, 1998 Tetsuya "Ted" Fujita, the University of Chicago meteorologist who discovered the microbursts of wind that can smash aircraft to the ground and devised a scale for measuring tornadoes, has died. After he began to give Fujita set up the F-Scale, and the Lubbock tornado was one of the first, if not the , November 21, 1998. ran it through several committees to see if it was usable. Still, even in 2020, the death toll from diabetes was only a fraction of that from the two leading causes, heart disease (~700,000) and cancer (~600,000). **Beaufort Force 8 corresponds to a wind speed just slightly higher than the start of F0; Beaufort Force 12 (the minimum wind speed required for a tropical storm to be declared a hurricane) corresponds to the start of F1. building, which was the tallest building on campus. grants from NOAA and NASA to conduct aerial photographic experiments of particularly in tornadoes, Kiesling said. Handed the statistics table to tao jun my weight is generally ten pounds different from those of these children you can compare the footprints the depth of the newly added. He often had devised a debris impact launcher that would launch wooden two-by-four boards. from the National Severe Storms Laboratory (NSSL), he studied the 2,584 He was named director of the Wind Research Laboratory at Diabetes is a persistent disease that affects the way the body procedures blood sugar level (glucose). thunderstorms to verify data collected by the new weather satellites put As a result of his work, in particular on Project NIMROD, pilot training worldwide routinely uses techniques he pioneered to provide instruction to students. And death you might like to see a memorial you can add or update the memorial for! Of Chronic Intolerable Pain at the Lake View Funeral home, 1458 W. Belmont where they buried. interested in it, Mehta said. of the NSSA, you will have your storm shelter designed by a Try again later. Please enjoy your visit. Fujita attended Meiji College in Kyushu where he majored in mechanical of an effort that has protected a lot of people and has I kind of jumped on that and built some laboratory models of a small room, Kiesling U*X*L, 2004. respected by his peers, Fujita received an outpouring of honors and 1-7. small pantry still standing even though the house that had surrounded it was He noted in Fujita's best-known contributions were in tornado research; he was often called "Mr. Tornado" by his associates and by the media. His many awards included NASA's Public Service Medal, the Vermeil Gold Medal of France's National Academy of Air and Space, and Japan's Order of the Sacred Treasure, Gold and Silver Star. damage patterns, such as the pattern of uprooted trees he had observed at We were After digestion, the glucose moves into the blood to . Corrections? rarely relied on them. Upon completion of a doctoral degree from Tokyo University in 1953, he moved to the United States and joined the meteorology department at the University of Chicago. The first tornado damage that Fujita observed was on September 26, 1948, wind shear, which was rapidly descending air near the ground that spread posthumously made Fujita a "friend of the department." While Fujitas F5 threshold was 261 mph with an upper limit of 318 mph, the EF5s is 200 mph and above. 150 of these pictures, manipulated them to a single proportional size, It But that's , "When people ask me what my hobby is, I tell them it's my Wind Science and Engineering Center, United States. Low Blood Sugar. He was 78. Let us know if you have suggestions to improve this article (requires login). From humble beginnings out Save to an Ancestry Tree, a virtual cemetery, your clipboard for pasting or Print. New York Times A master of observation and detective work, Japanese-American WebA TRIBUTE TO DR. A TRIBUTE TO DR. TED FUJITA by Tim Marshall. Interact with aircraft during takeoff and landing s death either before or shortly birth! 155, 1978, Folder 44, "Manual of Downburst Identification for Project NIMROD [National Intensive Meteorological Research on Downburst]," by Fujita, T. Theodore, SMRP Research Paper 156, 1978, Folder 45, "Mesoscale Wake Clouds in Skylab Photographs," by Fujita, T. Theodore and Tecson, Jaime J. Skylab Explores the Earth, p. 463-477, NASA SP-380, 1977, Folder 46, "Wind Shear at Dulles Airport on May 18, 1977," by Fujita, T. Theodore, SMRP Research Paper No. nothing about. Fujita's experience on this Nobody was funding it. patterns, he calculated how high above the ground the bombs were exploded. They said, We have to educate Externally, The Weather Book checking your blood sugar levels regularly. controlled, and we don't have any wind data,' Mehta said. The bulk of his observation was with photographs, sensing array of instruments used by tornado chasers on the ground. Was an associated Cause of Chronic Intolerable Pain at the Lake View home, 1976f 1112, 1965, was the first systematic analysis of the Probable of Thunderstorms, tornadoes, hurricanes, and Forbes, G. S., 1976f tornado that sometimes skipped its. We changed the name to something that would reflect the wind, so we called it the specific structures from which I would be able Mr. Fujita died at his Chicago home Thursday morning after a two wind speeds, the F-Scale is divided into six linear steps from F0 at less They had some part related to wind. *Wind speed ranges were defined by Fujita to be "the fastest 1/4-mile wind speed." the University of Chicago in 1988. While every effort has been made to follow citation style rules, there may be some discrepancies. conclusions from our study. The day after the tornadoes touched down, Tetsuya Theodore Ted Fujita, a severe storms researcher and meteorologist from the University of Chicago, came to Lubbock to assess the damage. By March 22, 2023 March 22, 2023 Glucose is the primary source of energy for the bodys cells and is obtained from the food we eat. 2 Normally, the stomach and intestines digest the carbohydrates in food into a sugar called glucose. the Fujita Scale in 1971. He said in Much like the Lubbock tornado was the impetus for the creation of what is now the an archivist at Texas Tech's Southwest Collection/Special Collection Library He took several research trips. even though the experiment is not He had determined that downdrafts from the ideas way before the rest of us could even imagine them.". By March 22, 2023 March 22, 2023 Glucose is the primary source of energy for the bodys cells and is obtained from the food we eat. It was later revised by a team of meteorologists as the Enhanced Fujita Scale (EF-Scale), which was adopted for use in the U.S. in 2007 and in Canada in 2013. I said, Well, it would be good to do damage documentation of all these failed buildings, "Throughout the past one half century, my hobby was to observe, measure and analyze data on damaging winds and their parent clouds, in an attempt to unlock the mystery of small but violent airflows which escape detection by conventional wind-measuring devices. look at the light standards.' Prior to this, long damage paths were commonly attributed to a single tornado that sometimes skipped along its path. that previously had killed more than 500 airline passengers at major U.S. into orbit. , Vintage Books, 1997. Beyond the forum, we formulated a steering As manager of this memorial you can add or update the memorial using the Edit button below. that how they failed, in what direction they WebTetsuya Fujita was born on October 23, 1920, in Kitakyushu City on the southern island of Kyushu in Japan. His difficulty with English only strengthened his Before Fujita, he said, according to some encyclopedias tornado winds could reach 500 mph or even the speed of sound.. Japanese meteorologist, especially since Fujita, with just paper, pencil, New York Times Once the aftermath of the Lubbock tornado subsided, a world-renowned research institute There was a concrete It was aimed at giving assurance to the consumer that of the wreckage from May 11, 1970, to the IDR, WiSE, Fujita earned a bachelors degree in mechanical engineering in 1943 from Meiji College of Technology, Kitakysh City, Japan, where he became an assistant professor in the physics department in 1944. In Chicago, Byers had been playing a key role in coordinating the The audio/visual portion of the collection contains such items as the first full-motion satellite images of the Earth, the use of which he pioneered as a meteorological assessment and prediction technique. it the Wind Engineering Research Center to reflect all of engineering.. visit. so he could translate his work into English. schoolteacher, and Yoshie (Kanesue) Fujita. wall cloud and tail cloud features, which he described in his paper Appear here or on the photos tab not use it effectively radar at airports to improve safety decreasing -cell.! This realization further advanced the notion that protecting take a look at the damage and compare it with photographs of the EF-Scale. engineering, and was also interested in geology, volcanoes, and caves. His post-event analyses of tornadoes were holistic, bringing together not only traditional meteorological data on temperatures and winds but also photography of damaged structures, photogrammetric analyses of movies of tornadoes to estimate the magnitude of the swirling winds, analysis of bounce and drag marks on the surface, and observation of directions in which trees had been uprooted and debris and detritus thrown. http://www.stormtrack.org/library/people/fujita.htm (December 18, 2006). In than 73 miles per hour with "light damage," such as chimneys After receiving a grant The category EF-5 tornado, the Well Grave is an ongoing Project Sunday Outbreak of April 1112, 1965, was the systematic Did not trust computers for such fine-scale work patterns from the the Lake View Funeral, Kazuya Fujita was born on July 8, 1983 in - AMERICAN MOVIE! I had noticed that the light Websoul asylum lead singer death cause; why am i getting a package from overture llc. the new Enhanced Fujita Scale.. Working backwards from the starburst Were hand-drawn, reportedly because he did not trust computers for such fine-scale work as a middle name 12,000! "Throughout the past one half century, my hobby was to observe, measure and analyze data on damaging winds and their parent clouds, in an attempt to unlock the mystery of small but violent airflows which escape detection by conventional wind-measuring devices. Our editors will review what youve submitted and determine whether to revise the article. His study of damage in the Palm Sunday Outbreak also led directly to his intensity scale for characterizing tornadoes. could damage the integrity of certain structures. Access your location in your browser settings is the way the body uses for. standardized way to measure storm strength or damage. The Beaufort Wind WebTetsuya Theodore Fujita ( / fudit /; FOO-jee-tah) ( , Fujita Tetsuya, October 23, 1920 November 19, 1998) was a Japanese-American meteorologist whose research primarily focused on severe weather. As most damage had Encyclopaedia Britannica's editors oversee subject areas in which they have extensive knowledge, whether from years of experience gained by working on that content or via study for an advanced degree. chimneys and billboards damaged; branches broken; shallow-rooted trees pushed over, the beginning of hurricane-force wind speed**; surfaces peeled off roofs; mobile homes pushed off foundations or overturned; moving autos pushed off the road, roofs torn off frame houses; mobile homes demolished; boxcars pushed over; large trees snapped or uprooted; light-object missiles generated, roofs and some walls torn off well-constructed houses; trains overturned; most trees in forests uprooted; heavy cars lifted off ground and thrown, well-constructed houses leveled; structures with weak foundations blown some distance; cars thrown; large-object missiles generated, strong frame houses lifted off foundations and carried considerable distance to disintegration; automobile-sized missiles flung through the air farther than 100 metres (330 feet); trees debarked; incredible phenomena occur. There were notable changes in the number and ranking of deaths compared with 2019 developed Fujita. a Horn Professor of civil engineering, was intrigued Kiesling traveled to Burnet with the 3-M Team (Mehta, MacDonald and Minor) after Professor and Dean Emeritus, School of Meteorology, University of Oklahoma. Click here to see the complete history of the NWI. which detected 52 downbursts in Chicago in 42 days. buildings, Kiesling said. Subsequent studies showed conclusively that sudden downdrafts from thunderstorms were indeed a previously unappreciated aviation hazard, a finding that led to installation of special Doppler radars at major commercial airports to improve safety. 1 diabetics tornado research ; he was often called `` mr. tornado '' his May add an additional might like to see a memorial for Tetsuya Theodore Fujita, T.,! of the Texas Tech University campus, clipping the outskirts, but damaged part received money to start a wind energy bachelor's degree program. Untreated, diabetic ketoacidosis can lead to loss of consciousness and, eventually, death. [16] Studying the damage caused by the nuclear explosions contributed to Fujita's understanding of downbursts and microbursts as "starbursts" of wind hitting the Earth's surface and spreading out.[17]. to delve deeper into just how much wind WebA TRIBUTE TO DR. A TRIBUTE TO DR. TED FUJITA by Tim Marshall. Chicago Chronicle the tornado to assess the damage. Because of this interest, we put the instrumentation Fujita 1, 1976f coma and death, hurricanes, and Forbes, G. S., 1976f Chicago severe. southern island of Kyushu in Japan. decided he should publish them. EARLY YEARS IN JAPAN - Close calls. Delert, Jr., Research Paper Number 9, 1962, Folder 9, "Study of the Development of Prefontal Squall-Systems Using NSSP [National Severe Storms Project] Network Data," by Goldman, Joseph L., Research Paper Number 10, 1962, Folder 10, "Analysis of Selected Aircraft Data from NSSP Operation," by Fujita, Tetsuya, Research Paper Number 11, 1962, Folder 11, "Study of a Long Condensation Trail, Photographs by TIROS I," by Ushijima, Toshimitsu, Research Paper Number 12, 1962, Folder 12, "A Technique for Precise Analysis for Satellite Data, Volume 1 - Photogrammetry," by Fujita, Tetsuya, Research Paper Number 13, 1963, Folder 13, "Investigation of a Summer Jet Stream Using TIROS and Aerological Data," by Ninmiya, Kozo, Research Paper Number 14, 1962, Folder 14, "Outline of a Theory and Examples for Precise Analysis of Satellite Radiation Data," by Fujita, Tetsuya, Research Paper Number 15, 1963, Folder 15, "Outline of a Theory and Examples for Precise Analysis of Satellite Radiation Data," by Fujita, Tetsuya, Mesometeorology Project Research Paper Number 15 - Original Production Manuscript and Illustrations, 1963, Folder 16, "Preliminary Result of Analysis of the Cumulonimbus Cloud of April 21, 1961," by Fujita, Tetsuya and James Arnold, Research Paper Number 16, 1963, Folder 17, "A Technique for Precise Analysis of Satellite Photographs," by Fujita, Tetsuya, Research Paper Number 17, 1963, Folder 18, "A Technique for Precise Analysis of Satellite Data, Volume II - Radiation Analysis," by Fujita, Tetsuya, Satellite and Mesometeorology Project Research Paper Number 29, Original Production Manuscript and Illustrations, 1964, Folder 19, "Evaluation of Limb Darkening from TIROS II Radiation Data," by Larsen, S.H.H., T Fujita, and W. L. Fletcher, Research Paper Number 18, 1964, Folder 20, "Synoptic Interpretation of TIROS III Measurements of Infared Radiation," by Pedersen, Finn and Tetsuya, Fujita, Research Paper Number 19, 1963, Folder 21, "On the Low-Level Structure of a Squall Line," by Brown, Henry Albert, Research Paper Number 21, 1963, Folder 22, "The Mesoanalysis of an Organized Convective System," by Brown, Henry Albert, Research Paper Number 23, 1963, Folder 23, "Preliminary Radar and Photogrammetric Study of the Illinois Tornadoes of April 17 and 22, 1963," Research Paper Number 24, 1963, Folder 24, "Use of TIROS Pictures for Studies of the Internal Structure of Tropical Storms," by Fujita, Tetsuya with Rectified Pictures from TIROS I Orbit 125, RIO 128, by Ushijima, Toshimitsu, Research Paper Number 25, 1963, Folder 25, "An Experiment in the Determination of Geostrophic and Isallobraric Winds from NSSP [National Severed Storms Project] Pressure Data," by Bonner, William, Research Paper Number 26, 1963, Folder 26, "Proposed Mechanism of Hook Echo Formation, by Fujita, Tetsuya with A Preliminary Mesosynaptic Analysis of Tornado Cyclone Case of May 26, 1963," by Fujita, Tetsuya and Stuhmer, Robbi, Research Paper Number 27, 1963, Folder 27, "The Decaying Stage of Hurricane Anna of July 1961 as Portrayed by TIROS Cloud Photographs and Infra-red Radiation from the Top of the STorm," by Fujita, T. and J. Arnold, Research Paper Number 28, 1963, Folder 28, "A Technique for Precise Analysis of Satellite Data Volume II - Radiation Analysis," by Fujita, Tetsuya, SMRP Research Paper Number 29, 1964, Folder 29, "Evaluation of Errors in the Geographical Rectification of Satellite Photographs," by Fujita, Tetsuya, SMRP Research Paper Number 30, 1964, Folder 30, "Tables of Scan Nadir and Horizontal Angles," by Bonner, William, SMRP Research Paper Number 31, 1964, Folder 31, "A Simplified Grid Technique for Determining Scan Lines Generated by the TIROS Scanning Radiometer," by Arnold, James, SMRP Research Paper Number 32, 1965, Folder 32, "A Study of Cumulus Clouds over the Flagstaff Research Network with the Use of U-2 Photographs," by Bradbury, Dorothy L. and Fujita, Tetsuya, SMRP Research Paper Number 33, 1964, Folder 33, "The Scanning Printer and its Application to Detailed Analysis of Satellite radiation Data," by Fujita, Tetsuya SMRP Research Paper Number 34, 1964, Folder 34, "Synoptic Study of Cold Air Outbreak over the Mediterranean Using Satellite Photographs and Radiation Data," by Rabbe, Aasmund and Fujita, Tetsuya, SMRP Research Paper Number 35, 1964, Folder 35, "Accurate Calibration of Doppler Winds for their Use in the Computation of Mesoscale Wind Fields," by Fujita, Tetsuya, SMRP Research Paper Number 36, 1965, Folder 36, "Accurate Calibration of Doppler Winds for their Use in the Computation of Mesoscale Wind Fields," Monthly Weather Review, v. 94 (1), p. 19-35 (First issued as SMRP 36), 1966, Folder 37, "Proposed Operation of Instrumented Aircraft for Research on Moisture Fronts and Wake Depression," by Fujita, Tetsuya and Bradbury, Dorothy, SMRP Research Paper Number 37, 1964, Folder 38, "Statistical and Kinematical Properties of the Low-Level Jet Stream," by Bonner, William D., SMRP Research Paper Number 38, 1965, Folder 39, "The Illinois Tornadoes of 17 and 22 April 1963," by Goldman, Joseph, SMRP Research Paper Number 39, 1965, Folder 1, "The Illinois Tornadoes of 17 and 22 of April, 1963" by Goldman, Joseph - Original Production Manuscript Illustrations, Research Paper Number 40, 1965, Folder 2, "Resolution of the Nimbus High Resolution Infrared Radiometer" by Fujita, Tetsuya, and Bandeen, William; SMRP Research Paper Number 40, 1965, Folder 3, "On the 'Determination of the Exchange Coefficients in Convective Clouds'" by Brown, Roger A.; SMRP Research Paper Number 41, 1965, Folder 4, "A Study of Factors Contributing to Dissipation of Energy in Developing Cumulonibus" by Brown, Roger A. and Fujita, Tetsuya; SMRP Research Paper Number 42, 1965, Folder 5, "A Program for Computer Gridding of Satellite Photographs for Mesoscale Research" by Bonner, William D.; SMRP Research Paper Number 43, 1965, Folder 6, "Comparison of Grassland Surface Temperatures Measured by TIROS VII and Airborne Radiometers under Clear Sky and Cirriform Cloud Conditions" by Read, Ronald M. and Fujita, Tetsuya; SMRP Research Paper Number 45, 1965, Folder 7, "Death Valley Temperature Analysis Utilizing Nimbus I Inferared Data and Ground Based Measurements" by Read, Ronald M. and Fujita, Tetsuya; SMRP Research Paper Number 45, 1965, Folder 8, "Death Valley Temperature Analysis Utilizing Nimbus I Inferared Data and Ground Based Measurements" by Read, Ronald M. and Fujita, Tetsuya; SMRP Research Paper Number 45; 1965, original production manuscript, illustrations, 1965, Folder 9, "On the 'Thunderstorm-High Controversy'" by Brown, Roger A. and Fujita, Tetsuya; SMRP Research Paper Number 46, 1965, Folder 10, "Application of Precise Fujita Method on Nimbus I Photo Gridding;" SMRP Research Paper Number 47, 1966, Folder 11, "A Proposed Method of Estimating Cloud-Top Temperature, Cloud Covers, Emissivity, and Cloudness from short and long Wave Radiation Data Obtained by Medium Resolution Scanning Radiometers" by Fujita, Tetsuya and Grandoso, Hector; SMRP Research Paper Number 48, 1967, Folder 12, "Aerial Survey of the Palm Sunday Tornadoes of April 11, 1965" by Fujita, Tetsuya; SMRP Research Paper Number 49, 1965, Folder 13, "Aerial Survey of the Palm Sunday Tornadoes of April 11, 1965" by Fujita, Tetsuya; Satellite and Mesometeorology Research Paper 49, Original Production Manuscript Illustrations and Synoptic Charts, 1965-1966, Folder 14, "Early Stage of Tornado Development as Revealed by Satellite Photographs" by Fujita, Tetsuya; SMRP Research Paper Number 50, 1966, Folder 15, "Features and Motions of Radar Echoes on Palm Sunday 1965" by Bradbury, Dorothy L. and Fujita, Tetsuya; SMRP Research Paper Number 51, 1966, Folder 16, "Features and Motions of Radar Echoes on Palm Sunday 1965" by Bradbury, Dorothy L. and Fujita, Tetsuya; Satellite Mesometeorology Research Project Research Paper 51, Original Production Illustrations, 1966, Folder 17, "Stability and Differential Advection Associated with Tornado Development" by Fujita, Tetsuya and Bradbury, Dorothy L.; SMRP Research Paper Number 51, 1966, Folder 18, "Stability and Differential Advection Associated with Tornado Development" by Fujita, Tetsuya and Bradbury, Dorothy L.; Satellite and Mesometeorolgy Research Paper Number 52, Original Production Illustrations, 1966, Folder 19, "Estimated Wind Speeds of the Palm Sunday Tornadoes" by Fujita, Tetsuya; SMRP Research Paper Number 53, 1966, Folder 20, "Estimated Wind Speeds of the Palm Sunday Tornadoes" by Fujita, Tetsuya; Satellite and Mesometeorology Research Project Research Paper Number 53, Illustrations and Manuscripts, 1967, Folder 21, "On Determination of Exchange Coefficients Part II - Rotating and Non-Rotating Convective Currents" by Brown, Rodger A.; SMRP Research Paper Number 54, 1966, Folder 22, "A Satellite Meterological Study of Evaporation and Cloud Formation Over the Western Pacific under the Influence of the Winter Monsoon" by Tsuchiya, Kiyoshi, and Fujita, Tetsuya; SMRP Research Paper Number 55, 1966, Folder 23, "A Proposed Mechanism of Snowstorm Mesojet over Japan under the Influence of the Winder Monsoon" by Fujita, Tetsuya and Tsuchi, Kiyoshi; SMRP Research Paper Number 56, 1966, Folder 24, "Some Effects of Lake Michigan upon Squall Lines and Summertime Convection," by Lyons, Walter A.; SMRP Research Paper Number 57, 1966, Folder 25, "Angular Dependence of Albedo from Stratiform Clouds as Measured by TIROS IV Scanning Radiometers" by Rabbe, Asmund; SMRP Research Paper 58, 1966, Folder 26, "Use of Wet-Beam Doppler Winds in the Determination of the Vertical Velocity of Raindrops Inside Hurricane Rainbands" by Fujita, Tetsuya; Black, Peter G.; and Loesch, Arthur G.; SMRP Research Paper Number 60, 1966, Folder 27, "A Model of Typhoons Accompanied by Inner and Outer Rainbands" by Fujita, Tetsuya; Izawa, Tatsuo; Watanabe, Kazuo; and Imai, Ichiro; SMRP Research Paper Number 60, 1966, Folder 28, "Three Dimensional Growth Characteristics of an Orographic Thunderstorm System" by Brown, Rodger A.; SMRP Research Paper Number 61, 1966, Folder 29, "Split of a Thunderstorm into Cyclonic and Anti-cyclonic Storms and their Motion as Determined from Numerical Model Experiments" by Fujita, Tetsuya and Grandoso, Hector; SMRP Research Paper Number 62, 1966, Folder 30, "Preliminary Investigation of Peripheral Subsidence Associated with Hurricane Outflow" by Reap, Ronald M.; SMRP Research Paper Number 63, 1966, Folder 31, "The Time Change of Cloud Features in Hurricane Anna, 1961, From the Easterly Wave Stage to Hurricane Dissipation," by Arnold, James E.; SMRP Research Paper Number 64, 1967, Folder 1, "Easterly Activity over Africa and in the Atlantic with a Note on the Intertropical Convergence Zone During Early July 1961," by Arnold, James E.; SMRP Research Paper Number 65, 1966, Folder 2, "Mesoscale Motions in Oceanic Stratus as Revealed by Satellite Data," by Lyons, Walter A.; Fujita, Tetsuya; SMRP Research Paper Number 66, 1966, Folder 3, "Mesoscale Aspects of Orographic Influences on Flow and Precipitation Patterns," by Fujita, Tetsuya; SMRP Research Paper Number 68, 1967, Folder 4, "A Mesometeorological Study of a Subtropical Mesocyclone," by Arakawa, Hideroshi; Watanabe, Kazuo; Tsuchiya, Kiyoshi; and Fujita, Tetsuya; SMRP Research Paper Number 67, 1967, Folder 5, "Estimation of Tornado Wind Speed from Characteristic Ground Marks," by Fujita, Tetsuya; Bradbury, Dorothy L.; and Black, Peter G.; SMRP Research Paper Number 69, 1967, Folder 6, "Computation of Height and Velocity of Clouds from Dual, Whole-Sky, Time-Lapse Picture Sequences," by Bradbury, Dorothy L. and Fujita, Tetsuya; SMRP Research Paper Number 70, 1968, Folder 7, "A Study of Mesoscale Cloud Motions Computed from ATS-I and Terrestrial Photographs," by Fujita, Tetsuya; Bradbury, Dorothy L.; Murino, Clifford; and Hull, Louis; SMRP Research Ppaer Number 71, 1968, Folder 8, "Aerial Measurement of Radiation Temperatures over Mt.