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rock > igneous rock > differentiated meteorite > differentiated achondrite > asteroidal achondrite > aubrite

Next asteroidal achondrite: brachinite Up: asteroidal achondrite, highly reduced meteorite Previous asteroidal achondrite: angrite

aubrite

subject fact

aubrite is a kind of asteroidal achondrite 2000-12-14 14:18:43.0
is a kind of highly reduced meteorite
has letter designation AUB
has characteristic mineral enstatite
has total mass of finds 1205 kg
has number of finds 9
has minerology enstatite, forsterite, sodic plagioclase, metal, numerous sulfides has source: Mittlefehldt, D.W. 1998, Planetary Materials, ISBN 0-939950-46-4, 2000-12-14 14:18:43.0
has petrology breccias of igneous lithologies
has likely origin melted and crystallized residues from partial melting

asteroidal achondrite has origin asteroid

highly reduced meteorite has oxidation state highly reduced with very little FeO 2000-12-14 14:18:32.0

meteorite has fall date recorded by eyewitness or inferred from dating methods 2000-12-14 14:18:31.0
has fall location strewn fields, elongated footprints which depends on impact angle, airbursts, and impact velocity
has fall coordinates in degrees, minutes and seconds of lattitude and longitude
has fall map which appears as an elongated footprint which depends on impact angle, airbursts, and impact velocity 2000-12-14 14:18:31.0
can have crater image
has original mass which can over an order of magnitude greater than total mass of fragment(s) collected at the impact site
has composition often minerals not found on Earth
has relative abundance
has impact velocity when it hits the ground which is smaller than its velocity before it enters the atmosphere 2000-12-14 14:18:31.0
has impact angle
has weather resistance which depends on its composition
has monetary value large if the fall was witnessed
has name based on the locale, region, or nearby town in which the fall occurred
often produce power outages and failures in electrical equipment due to EMP (electromagnetic pulse) 2000-12-14 14:18:31.0
can be associated with crater
vaporizes completely if size is between 3 micrometers and 3 millimeters
can survive fall if size is larger than 3 mm and velocity is less than 24 km per second
can survive fall if it fragments because smaller pieces with less mass are more easily slowed by the atmosphere 2000-12-14 14:18:31.0
has ablative mass loss depending on composition, more friable stony meteoroids loses more mass than iron meteoroid
has ablative mass loss directly proportional to initial velocity
can shatter during impact phase
can fragment during meteor phase
has fragmentation probability during meteor phase which depends on composition 2000-12-14 14:18:32.0

achondrite has distinguishing feature no chondrules 2000-12-14 14:18:42.0

rock has part mineral 2000-12-14 14:18:20.0
has texture
has genesis

igneous rock has solidification mechanism 2000-12-14 14:18:21.0
has solidification timescale

Kinds of aubrite :

Khor Temiki (6 facts)
Mayo Belwa (8 facts)
Mount Egerton (16 facts)
Norton County (8 facts)
Peña Blanca Spring (8 facts)

Next asteroidal achondrite: brachinite Up: asteroidal achondrite, highly reduced meteorite Previous asteroidal achondrite: angrite

aubrite	is a kind of asteroidal achondrite
	is a kind of highly reduced meteorite
	has letter designation AUB
	has characteristic mineral enstatite
	has total mass of finds 1205 kg
	has number of finds 9
	has minerology enstatite, forsterite, sodic plagioclase, metal, numerous sulfides
	has petrology breccias of igneous lithologies
	has likely origin melted and crystallized residues from partial melting
asteroidal achondrite	has origin asteroid
highly reduced meteorite	has oxidation state highly reduced with very little FeO
meteorite	has fall date recorded by eyewitness or inferred from dating methods
	has fall location strewn fields, elongated footprints which depends on impact angle, airbursts, and impact velocity
	has fall coordinates in degrees, minutes and seconds of lattitude and longitude
	has fall map which appears as an elongated footprint which depends on impact angle, airbursts, and impact velocity
	can have crater image
	has original mass which can over an order of magnitude greater than total mass of fragment(s) collected at the impact site
	has composition often minerals not found on Earth
	has relative abundance
	has impact velocity when it hits the ground which is smaller than its velocity before it enters the atmosphere
	has impact angle
	has weather resistance which depends on its composition
	has monetary value large if the fall was witnessed
	has name based on the locale, region, or nearby town in which the fall occurred
	often produce power outages and failures in electrical equipment due to EMP (electromagnetic pulse)
	can be associated with crater
	vaporizes completely if size is between 3 micrometers and 3 millimeters
	can survive fall if size is larger than 3 mm and velocity is less than 24 km per second
	can survive fall if it fragments because smaller pieces with less mass are more easily slowed by the atmosphere
	has ablative mass loss depending on composition, more friable stony meteoroids loses more mass than iron meteoroid
	has ablative mass loss directly proportional to initial velocity
	can shatter during impact phase
	can fragment during meteor phase
	has fragmentation probability during meteor phase which depends on composition
achondrite	has distinguishing feature no chondrules
rock	has part mineral
	has texture
	has genesis
igneous rock	has solidification mechanism
igneous rock	has solidification timescale