| Subject |
has weather resistance |
is an instance of |
has fragmentation probability |
has fall location |
has fall date |
has name |
has fall description |
has weather |
has weathering stage |
has acronym |
has relative abundance |
has value |
has fall coordinate |
has composition |
has find date |
has mass |
has image |
has ablative mass loss |
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| Bjurböle | low | LL4 chondrite | high because it is more friable than iron meteorite | strewn fields, elongated footprints which depends on impact angle, airbursts, and impact velocity | recorded by eyewitness or inferred from dating methods | based on the locale, region, or nearby town in which the fall occurred | | | | | 85.7 % of meteorite falls | | in degrees, minutes and seconds of lattitude and longitude | bronzite, olivine and minor oligoclase | | | | high because it is more friable than iron meteorite |
| DaG 298 | which depends on its composition | Dar al Gani meteorite | during meteor phase which depends on composition | Dar al Gani plateau, Libyan Sahara Desert | recorded by eyewitness or inferred from dating methods | DaG 298 | | can be severe due to long exposure time to environmental corrosion agents | W0 | DaG | | lower because the fall was not witnessed | 26° 58.20' N., 16° 42.28' E. | bronzite, olivine and minor oligoclase | 1997 | 2.459 kg |
 | directly proportional to initial velocity |
| Greenwell Springs | low | LL4 chondrite | high because it is more friable than iron meteorite | strewn fields, elongated footprints which depends on impact angle, airbursts, and impact velocity | recorded by eyewitness or inferred from dating methods | based on the locale, region, or nearby town in which the fall occurred | | | | | 85.7 % of meteorite falls | | in degrees, minutes and seconds of lattitude and longitude | bronzite, olivine and minor oligoclase | | | | high because it is more friable than iron meteorite |
| Sahara 97137 | low | LL4 chondrite | high because it is more friable than iron meteorite | strewn fields, elongated footprints which depends on impact angle, airbursts, and impact velocity | recorded by eyewitness or inferred from dating methods | based on the locale, region, or nearby town in which the fall occurred | | | | | 85.7 % of meteorite falls | | in degrees, minutes and seconds of lattitude and longitude | bronzite, olivine and minor oligoclase | | | | high because it is more friable than iron meteorite |
| Seemore Downs | which depends on its composition | meteorite find | during meteor phase which depends on composition | Western Australia | recorded by eyewitness or inferred from dating methods | Seemore Downs | | can be severe due to long exposure time to environmental corrosion agents | | | | lower because the fall was not witnessed | 30° 35' S., 125° 13' E. | often minerals not found on Earth | April 1991 | 0.429 kg |
 | directly proportional to initial velocity |
| Sleeper Camp 004 | low | LL4 chondrite | high because it is more friable than iron meteorite | strewn fields, elongated footprints which depends on impact angle, airbursts, and impact velocity | recorded by eyewitness or inferred from dating methods | based on the locale, region, or nearby town in which the fall occurred | | | | | 85.7 % of meteorite falls | | in degrees, minutes and seconds of lattitude and longitude | bronzite, olivine and minor oligoclase | | | | high because it is more friable than iron meteorite |
| Soko Banja | which depends on its composition | meteorite fall | during meteor phase which depends on composition | Serbia, Yugoslavia | October 13, 1877 | Soko Banja | what witnesses saw or what was recorded by instruments | negligible due to quick recovery of meteorite before corrosion begins | | | | higher because the fall was witnessed | 43° 40' N., 21° 52' E. | often minerals not found on Earth | | 80 kg |
 | directly proportional to initial velocity |
| Vera | low | LL4 chondrite | high because it is more friable than iron meteorite | strewn fields, elongated footprints which depends on impact angle, airbursts, and impact velocity | recorded by eyewitness or inferred from dating methods | based on the locale, region, or nearby town in which the fall occurred | | | | | 85.7 % of meteorite falls | | in degrees, minutes and seconds of lattitude and longitude | bronzite, olivine and minor oligoclase | | | | high because it is more friable than iron meteorite |
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