PmWiki.DropTowers History
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Drop towers equipped with catapults, such as FallTurm Bremen, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC1 2, have provided up to 10 seconds. At up to 3 experiments per day3, it might be possible to perform about half a minute worth of microgravity tests and exercises per day, at the high-end facilities. There are other, shorter-duration facilities available in Australia4, in the U.S.5 6 7 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft8), France9 and Japan.10
Drop towers equipped with catapults, such as FallTurm Bremen, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC11 12, have provided up to 10 seconds. At up to 3 experiments per day13, it might be possible to perform about half a minute worth of microgravity tests and exercises per day, at the high-end facilities. There are other, shorter-duration facilities available in Australia14, in the U.S.15 16 17 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft18), France19 and Japan.20
Drop towers equipped with catapults, such as FallTurm Bremen, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC21 22, have provided up to 10 seconds. At up to 3 experiments per day23, it might be possible to perform about half a minute worth of microgravity tests and exercises per day, at the high-end facilities. There are other, shorter-duration facilities available in Australia24, in the U.S.25 26 27 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft28), France29 and Japan30
Drop towers equipped with catapults, such as FallTurm Bremen, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC31 32, have provided up to 10 seconds. At up to 3 experiments per day33, it might be possible to perform about half a minute worth of microgravity tests and exercises per day, at the high-end facilities. There are other, shorter-duration facilities available in Australia34, in the U.S.35 36 37 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft38), France39 and Japan.40
http://upload.wikimedia.org/wikipedia/commons/thumb/c/c4/Zero_Gravity_Facility_-_GPN-2000-001454.jpg/120px-Zero_Gravity_Facility_-_GPN-2000-001454.jpg
http://upload.wikimedia.org/wikipedia/commons/thumb/c/c4/Zero_Gravity_Facility_-_GPN-2000-001454.jpg/120px-Zero_Gravity_Facility_-_GPN-2000-001454.jpg | A NASA zero-g lab
http://upload.wikimedia.org/wikipedia/commons/thumb/1/18/Bremen_fallturm.jpg/240px-Bremen_fallturm.jpg
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC41 42, have provided up to 10 seconds. At up to 3 experiments per day43, it might be possible to perform about half a minute worth of microgravity tests and exercises per day, at the high-end facilities. There are other, shorter-duration facilities available in Australia44, in the U.S.45 46 47 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft48), France49 and Japan50
http://upload.wikimedia.org/wikipedia/commons/thumb/1/18/Bremen_fallturm.jpg/240px-Bremen_fallturm.jpg | FallTurm Bremen
Drop towers equipped with catapults, such as FallTurm Bremen, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC51 52, have provided up to 10 seconds. At up to 3 experiments per day53, it might be possible to perform about half a minute worth of microgravity tests and exercises per day, at the high-end facilities. There are other, shorter-duration facilities available in Australia54, in the U.S.55 56 57 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft58), France59 and Japan60
http://upload.wikimedia.org/wikipedia/commons/thumb/c/c4/Zero_Gravity_Facility_-_GPN-2000-001454.jpg/120px-Zero_Gravity_Facility_-_GPN-2000-001454.jpg
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC61 62, have provided up to 10 seconds. At up to 3 experiments per day63, it might be possible to perform about half a minute worth of microgravity tests and exercises per day, at the high-end facilities. There are other, shorter-duration facilities available in Australia64, in the U.S.65 66 67 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft68), France69 and in Japan70
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC71 72, have provided up to 10 seconds. At up to 3 experiments per day73, it might be possible to perform about half a minute worth of microgravity tests and exercises per day, at the high-end facilities. There are other, shorter-duration facilities available in Australia74, in the U.S.75 76 77 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft78), France79 and Japan80
Project Persephone will require some way to validate its designs for telebots, inflatable space structures, and perhaps other mechanisms in orbiting exovivaria, under the most realistic conditions possible on Earth. At certain scales, and for operations not requiring too much time, drop tower experiments might suffice, especially if there is some way to brace the units under test as they are rapidly decelerated, so that testing is non-destructive. With appropriate bracing and sequencing, it might be possible to manually practice some kinds of teleoperations, and study the behavior of some kinds of automated equipment, over several drop tower runs.
Project Persephone will require some way to validate its designs for telebots, inflatable space structures, and perhaps other mechanisms in orbiting exovivaria, under the most realistic conditions possible on Earth. At certain scales, and for operations not requiring too much time, drop tower experiments might suffice, especially if there is some way to brace the units under test as they are rapidly decelerated, so that testing is non-destructive. With appropriate bracing and sequencing, it might be possible to manually practice some kinds of telebotic operations, and study the behavior of some kinds of automated equipment, over several drop tower runs.
http://upload.wikimedia.org/wikipedia/commons/thumb/1/18/Bremen_fallturm.jpg/240px-Bremen_fallturm.jpg
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC81 82, have provided up to 10 seconds. At up to 3 experiments per day83, it might be possible to nearly 30 seconds worth of microgravity tests and exercises per day. There are other, shorter-duration facilities available in Australia84, in the U.S.85 86 87 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft88), France89 and in Japan90
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC91 92, have provided up to 10 seconds. At up to 3 experiments per day93, it might be possible to perform about half a minute worth of microgravity tests and exercises per day, at the high-end facilities. There are other, shorter-duration facilities available in Australia94, in the U.S.95 96 97 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft98), France99 and in Japan100
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC101 102, have provided up to 10 seconds. At up to 3 experiments per day, it might be possible to nearly 30 seconds worth of microgravity tests and exercises per day.103 There are other, shorter-duration facilities available in Australia104, in the U.S.105 106 107 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft108), France109 and in Japan110
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC111 112, have provided up to 10 seconds. At up to 3 experiments per day113, it might be possible to nearly 30 seconds worth of microgravity tests and exercises per day. There are other, shorter-duration facilities available in Australia114, in the U.S.115 116 117 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft118), France119 and in Japan120
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.121 There are other, shorter-duration facilities available in Australia122, in the U.S.123 124 125 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft126), France127 and in Japan128 129
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. Drop shafts drilled deep into the ground, such as JAMIC130 131, have provided up to 10 seconds. At up to 3 experiments per day, it might be possible to nearly 30 seconds worth of microgravity tests and exercises per day.132 There are other, shorter-duration facilities available in Australia133, in the U.S.134 135 136 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft137), France138 and in Japan139
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment, usually in a container. Also known as Drop Tube.
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment. Drop shafts are usually evacuated. Drop tubes usually don't have an experiment container.
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.140 There are other, shorter-duration facilities available in Australia141, in the U.S.142 143 144 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft145), France146 and in Japan147 148
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.149 There are other, shorter-duration facilities available in Australia150, in the U.S.151 152 153 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft154), France155 and in Japan156 157
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.158 There are other, shorter-duration facilities available in Australia159, in the U.S.160 161 162 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft163), France164 and in Japan165
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.166 There are other, shorter-duration facilities available in Australia167, in the U.S.168 169 170 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft171), France172 and in Japan173 174
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment, usually in a container.
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment, usually in a container. Also known as Drop Tube.
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.175 There are other, shorter-duration facilities available in Australia176, in the U.S.177 178 179, including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft180, France181 and in Japan182
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.183 There are other, shorter-duration facilities available in Australia184, in the U.S.185 186 187 (including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft188), France189 and in Japan190
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment container.
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment, usually in a container.
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.191 There are other, shorter-duration facilities available in Australia192, in the U.S.193 194 195, including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft196, France197 and in Japan198
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.199 There are other, shorter-duration facilities available in Australia200, in the U.S.201 202 203, including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft204, France205 and in Japan206
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.207 There are other, shorter-duration facilities available in Brisbane, Australia208, in the U.S.209 210 211, including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft212, and in Japan213
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.214 There are other, shorter-duration facilities available in Australia215, in the U.S.216 217 218, including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft219, France220 and in Japan221
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.222 There are other, shorter-duration facilities available in Brisbane, Australia223, in the U.S.224 225, including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft226, and in Japan227
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.228 There are other, shorter-duration facilities available in Brisbane, Australia229, in the U.S.230 231 232, including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft233, and in Japan234
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.235 There are other, shorter-duration facilities available in Brisbane, Australia236, in the U.S.237238, including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft239, and in Japan240
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.241 There are other, shorter-duration facilities available in Brisbane, Australia242, in the U.S.243 244, including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft245, and in Japan246
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment container in a vacuum.
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment container.
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.247
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.248 There are other, shorter-duration facilities available in Brisbane, Australia249, in the U.S.250251, including a 1-second drop for assessing fuel slosh in scale models of spin-stabilized craft252, and in Japan253
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment container in a vacuum.
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment container in a vacuum.
Project Persephone will require some way to validate its designs for telebots, inflatable space structures, and perhaps other mechanisms in orbiting exovivaria, under the most realistic conditions possible on Earth. At certain scales, and for operations not requiring too much time, drop tower experiments might suffice, especially if there is some way to brace the units under test as they are rapidly decelerated, so that testing is non-destructive. With appropriate bracing and sequencing, it might be possible to manually practice some kinds of teleoperations, and study the behavior of some kinds of automated equipment, over several drop tower runs.
Drop towers equipped with catapults, such as the Bremen Drop Tower, can provide over 9 seconds of microgravity. At up to 3 experiments per day, it might be possible to perform up 27 seconds worth of microgravity tests and exercises per day.254
1 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
2 "Research under Microgravity Environment" Hokkaido National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
3 "Catapult Details - Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
4 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
5 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
6 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
7 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
8 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
9 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
10 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
11 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
12 "Research under Microgravity Environment" Hokkaido National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
13 "Catapult Details - Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
14 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
15 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
16 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
17 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
18 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
19 CERUM - Département d'études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
20 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
21 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
22 "Research under Microgravity Environment" Hokkaid National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
23 "Catapult Details - Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
24 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
25 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
26 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
27 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
28 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
29 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
30 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
31 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
32 "Research under Microgravity Environment" Hokkaido National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
33 "Catapult Details - Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
34 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
35 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
36 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
37 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
38 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
39 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
40 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
41 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
42 "Research under Microgravity Environment" Hokkaid National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
43 "Catapult Details - Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
44 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
45 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
46 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
47 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
48 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
49 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
50 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
51 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
52 "Research under Microgravity Environment" Hokkaid National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
53 "Catapult Details - Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
54 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
55 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
56 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
57 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
58 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
59 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
60 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
61 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
62 "Research under Microgravity Environment" Hokkaid National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
63 "Catapult Details - Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
64 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
65 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
66 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
67 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
68 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
69 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
70 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
71 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
72 "Research under Microgravity Environment" Hokkaid National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
73 "Catapult Details - Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
74 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
75 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
76 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
77 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
78 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
79 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
80 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
81 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
82 "Research under Microgravity Environment" Hokkaid National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
83 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
84 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
85 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
86 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
87 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
88 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
89 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
90 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
91 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
92 "Research under Microgravity Environment" Hokkaid National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
93 "Catapult Details - Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
94 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
95 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
96 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
97 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
98 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
99 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
100 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
101 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
102 "Research under Microgravity Environment" Hokkaid National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
103 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
104 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
105 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
106 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
107 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
108 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
109 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
110 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
111 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
112 "Research under Microgravity Environment" Hokkaid National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
113 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
114 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
115 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
116 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
117 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
118 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
119 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
120 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
121 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
122 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
123 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
124 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
125 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
126 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
127 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
128 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
129 JAMIC drop shaft, Kamisunagawa, http://microgravity.com/tutorial-obtaining-page2.html ⇑
130 JAMIC drop shaft, Kami-sunagawa, Hokkaido http://microgravity.com/tutorial-obtaining-page2.html ⇑
131 "Research under Microgravity Environment" Hokkaid National Industrial Research Institute http://www.hniri.go.jp/chap2/gra-st-e.html ⇑
132 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
133 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
134 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
135 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
136 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
137 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
138 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
139 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
140 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
141 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
142 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
143 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
144 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
145 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
146 CERUM - Département d'Études des Matériaux, Grenoble - containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
147 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
148 JAMIC, Kamisunagawa, http://microgravity.com/tutorial-obtaining-page2.html ⇑
149 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
150 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
151 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
152 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
153 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
154 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
155 CERUM - Département d'Études des Matériaux, Grenoble - drop tube, containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
156 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
157 JAMIC drop shaft, Kamisunagawa, http://microgravity.com/tutorial-obtaining-page2.html ⇑
158 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
159 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
160 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
161 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
162 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
163 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
164 CERUM - Département d'Études des Matériaux, Grenoble - containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
165 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
166 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
167 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
168 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
169 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
170 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
171 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
172 CERUM - Département d'Études des Matériaux, Grenoble - containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
173 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
174 JAMIC, Kamisunagawa, http://microgravity.com/tutorial-obtaining-page2.html ⇑
175 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
176 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
177 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
178 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
179 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
180 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
181 CERUM - Département d'Études des Matériaux, Grenoble - containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
182 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
183 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
184 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
185 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
186 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
187 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
188 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
189 CERUM - Département d'Études des Matériaux, Grenoble - containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
190 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
191 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
192 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
193 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
194 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
195 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
196 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
197 CERUM - , Grenoble http://conferences.esa.int/00a06/abstracts/206.html ⇑
198 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
199 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
200 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
201 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
202 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
203 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
204 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
205 CERUM - Département d'Études des Matériaux, Grenoble - containerless, presumably destructive, metallurgical orientation http://conferences.esa.int/00a06/abstracts/206.html ⇑
206 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
207 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
208 QUT microgravity facility http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
209 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
210 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
211 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
212 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
213 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
214 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
215 QUT microgravity facility, Brisbane http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
216 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
217 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
218 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
219 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
220 CERUM - , Grenoble http://conferences.esa.int/00a06/abstracts/206.html ⇑
221 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
222 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
223 QUT microgravity facility http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
224 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
225 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
226 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
227 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
228 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
229 QUT microgravity facility http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
230 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
231 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
232 Marshall Space Flight Center Dynamic Test Stand Drop Tube Facility - reportedly mothballed, narrow (26 cm) diameter, no container, destructive testing only http://science.nasa.gov/ssl/msad/dtf/tube.htm ⇑
233 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
234 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
235 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
236 QUT microgravity facility http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
237 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
238 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
239 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
240 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
241 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
242 QUT microgravity facility http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
243 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
244 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
245 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
246 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
247 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
248 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
249 QUT microgravity facility http://www.bee.qut.edu.au/research/projects/microgravity/facility.jsp ⇑
250 2.2 second drop tower, NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/drop/ ⇑
251 Zero Gravity Research Facility (5 sec drop), NASA Glenn Research Center, Cleveland OH http://facilities.grc.nasa.gov/zerog/ ⇑
252 Applied Dynamics Laboratory, Portland OR http://www.fuelslosh.com/ADL/DROP_TEST.html ⇑
253 Micro-Gravity Laboratory of Japan (MGLAB),Kawai, Izumi-cho, Toki City, Gifu Pref http://www.mglab.co.jp/index_e.html ⇑
254 "Catapult Details | Bremen Drop Tower", ZARM Center of Applied Space Technology and Microgravity ⇑
Drop tower - a facility used for achieving microgravity by dropping (or in some cases tossing) an experiment container in a vacuum.