Aydar 006 is an ordinary chondrite of type H3. It was found in a concentration area called Aydar by Lahsen Oussalah in 2019. 6 pieces for a total of 1020 g were discovered at 8.69 km south west of Lebouirat.
This is the 6th classified meteorite discovered in this area.
Writeup from MB 110 :
Aydar 006 27°54.58833’N , 10°10.86167’W
South, Morocco
Find: 2019
Classification: Ordinary chondrite (H3)
History: Lahsen Oussalah found the 6 samples weighing a total of 1020 g 8.69km SW of Lebouirat, Morocco, in 2019. Jean Redelsperger purchase the samples from Mohamed El Guirah in Zagora in 2020.
Physical characteristics: Samples have wind-blown surfaces devoid of fusion crust, are brown in color, rounded-irregular in shape. A cut face shows the interior contains abundant well-formed, close-packed chondrules, FeNi metal and FeS.
Petrography: Classification and Description (A. Love, App) Sample shows chondritic texture composed of abundant chondrules an average apparent diameter of 390 µm (n=58). Additional minerals are: chromite, FeNi metal (8.6 vol%), troilite and apatite.
Classification: Ordinary chondrite (H3, C-S2, W2) Chondrule diameters, unequilibrated mineral compositions and metal abundance suggest sample is an H3 chondrite.
Specimens: Jean Redelsperger holds the main masses. An endcut weighing 20.90g and a polished mount are on deposit at App.
Aydar 006 is an ordinary chondrite of type H3. It was found in a concentration area called Aydar by Lahsen Oussalah in 2019. 6 pieces for a total of 1020 g were discovered at 8.69 km south west of Lebouirat.
This is the 6th classified meteorite discovered in this area.
Writeup from MB 110 :
Aydar 006 27°54.58833’N , 10°10.86167’W
South, Morocco
Find: 2019
Classification: Ordinary chondrite (H3)
History: Lahsen Oussalah found the 6 samples weighing a total of 1020 g 8.69km SW of Lebouirat, Morocco, in 2019. Jean Redelsperger purchase the samples from Mohamed El Guirah in Zagora in 2020.
Physical characteristics: Samples have wind-blown surfaces devoid of fusion crust, are brown in color, rounded-irregular in shape. A cut face shows the interior contains abundant well-formed, close-packed chondrules, FeNi metal and FeS.
Petrography: Classification and Description (A. Love, App) Sample shows chondritic texture composed of abundant chondrules an average apparent diameter of 390 µm (n=58). Additional minerals are: chromite, FeNi metal (8.6 vol%), troilite and apatite.
Classification: Ordinary chondrite (H3, C-S2, W2) Chondrule diameters, unequilibrated mineral compositions and metal abundance suggest sample is an H3 chondrite.
Specimens: Jean Redelsperger holds the main masses. An endcut weighing 20.90g and a polished mount are on deposit at App.
Aydar 006 is an ordinary chondrite of type H3. It was found in a concentration area called Aydar by Lahsen Oussalah in 2019. 6 pieces for a total of 1020 g were discovered at 8.69 km south west of Lebouirat.
This is the 6th classified meteorite discovered in this area.
Writeup from MB 110 :
Aydar 006 27°54.58833’N , 10°10.86167’W
South, Morocco
Find: 2019
Classification: Ordinary chondrite (H3)
History: Lahsen Oussalah found the 6 samples weighing a total of 1020 g 8.69km SW of Lebouirat, Morocco, in 2019. Jean Redelsperger purchase the samples from Mohamed El Guirah in Zagora in 2020.
Physical characteristics: Samples have wind-blown surfaces devoid of fusion crust, are brown in color, rounded-irregular in shape. A cut face shows the interior contains abundant well-formed, close-packed chondrules, FeNi metal and FeS.
Petrography: Classification and Description (A. Love, App) Sample shows chondritic texture composed of abundant chondrules an average apparent diameter of 390 µm (n=58). Additional minerals are: chromite, FeNi metal (8.6 vol%), troilite and apatite.
Classification: Ordinary chondrite (H3, C-S2, W2) Chondrule diameters, unequilibrated mineral compositions and metal abundance suggest sample is an H3 chondrite.
Specimens: Jean Redelsperger holds the main masses. An endcut weighing 20.90g and a polished mount are on deposit at App.
Aydar 006 is an ordinary chondrite of type H3. It was found in a concentration area called Aydar by Lahsen Oussalah in 2019. 6 pieces for a total of 1020 g were discovered at 8.69 km south west of Lebouirat.
This is the 6th classified meteorite discovered in this area.
Writeup from MB 110 :
Aydar 006 27°54.58833’N , 10°10.86167’W
South, Morocco
Find: 2019
Classification: Ordinary chondrite (H3)
History: Lahsen Oussalah found the 6 samples weighing a total of 1020 g 8.69km SW of Lebouirat, Morocco, in 2019. Jean Redelsperger purchase the samples from Mohamed El Guirah in Zagora in 2020.
Physical characteristics: Samples have wind-blown surfaces devoid of fusion crust, are brown in color, rounded-irregular in shape. A cut face shows the interior contains abundant well-formed, close-packed chondrules, FeNi metal and FeS.
Petrography: Classification and Description (A. Love, App) Sample shows chondritic texture composed of abundant chondrules an average apparent diameter of 390 µm (n=58). Additional minerals are: chromite, FeNi metal (8.6 vol%), troilite and apatite.
Classification: Ordinary chondrite (H3, C-S2, W2) Chondrule diameters, unequilibrated mineral compositions and metal abundance suggest sample is an H3 chondrite.
Specimens: Jean Redelsperger holds the main masses. An endcut weighing 20.90g and a polished mount are on deposit at App.
Aydar 006 is an ordinary chondrite of type H3. It was found in a concentration area called Aydar by Lahsen Oussalah in 2019. 6 pieces for a total of 1020 g were discovered at 8.69 km south west of Lebouirat.
This is the 6th classified meteorite discovered in this area.
Writeup from MB 110 :
Aydar 006 27°54.58833’N , 10°10.86167’W
South, Morocco
Find: 2019
Classification: Ordinary chondrite (H3)
History: Lahsen Oussalah found the 6 samples weighing a total of 1020 g 8.69km SW of Lebouirat, Morocco, in 2019. Jean Redelsperger purchase the samples from Mohamed El Guirah in Zagora in 2020.
Physical characteristics: Samples have wind-blown surfaces devoid of fusion crust, are brown in color, rounded-irregular in shape. A cut face shows the interior contains abundant well-formed, close-packed chondrules, FeNi metal and FeS.
Petrography: Classification and Description (A. Love, App) Sample shows chondritic texture composed of abundant chondrules an average apparent diameter of 390 µm (n=58). Additional minerals are: chromite, FeNi metal (8.6 vol%), troilite and apatite.
Classification: Ordinary chondrite (H3, C-S2, W2) Chondrule diameters, unequilibrated mineral compositions and metal abundance suggest sample is an H3 chondrite.
Specimens: Jean Redelsperger holds the main masses. An endcut weighing 20.90g and a polished mount are on deposit at App.
Aydar 006 is an ordinary chondrite of type H3. It was found in a concentration area called Aydar by Lahsen Oussalah in 2019. 6 pieces for a total of 1020 g were discovered at 8.69 km south west of Lebouirat.
This is the 6th classified meteorite discovered in this area.
Writeup from MB 110 :
Aydar 006 27°54.58833’N , 10°10.86167’W
South, Morocco
Find: 2019
Classification: Ordinary chondrite (H3)
History: Lahsen Oussalah found the 6 samples weighing a total of 1020 g 8.69km SW of Lebouirat, Morocco, in 2019. Jean Redelsperger purchase the samples from Mohamed El Guirah in Zagora in 2020.
Physical characteristics: Samples have wind-blown surfaces devoid of fusion crust, are brown in color, rounded-irregular in shape. A cut face shows the interior contains abundant well-formed, close-packed chondrules, FeNi metal and FeS.
Petrography: Classification and Description (A. Love, App) Sample shows chondritic texture composed of abundant chondrules an average apparent diameter of 390 µm (n=58). Additional minerals are: chromite, FeNi metal (8.6 vol%), troilite and apatite.
Classification: Ordinary chondrite (H3, C-S2, W2) Chondrule diameters, unequilibrated mineral compositions and metal abundance suggest sample is an H3 chondrite.
Specimens: Jean Redelsperger holds the main masses. An endcut weighing 20.90g and a polished mount are on deposit at App.
Zagora 003 is a fresh meteorite classified as eucrite of only 135 grams.
It was discovered near Zagora in Morocco by Ahmed Enaji on September 13, 2020.
The eucrites come from the Asteroid Vesta.
Writeup from MB 110 :
Zagora 003 30°20’51.94″N, 5°36’41.79″W
Morocco
Find: 2020 Sep 13
Classification: HED achondrite (Eucrite)
History: Found by Ahmed Enaji on September 13, 2020. Bought from Zaid Oualguirah in 2020.
Physical characteristics: Several fusion crusted pieces with grey interior.
Petrography: (J. Gattacceca, CEREGE) Igneous rock with grain size about 500 µm. It contains melt rock areas, and other areas with variolitic texture. Main minerals are pyroxene and plagioclase. Other minerals: metal, troilite, chromite.
Zagora 003 is a fresh meteorite classified as eucrite of only 135 grams.
It was discovered near Zagora in Morocco by Ahmed Enaji on September 13, 2020.
The eucrites come from the Asteroid Vesta.
Writeup from MB 110 :
Zagora 003 30°20’51.94″N, 5°36’41.79″W
Morocco
Find: 2020 Sep 13
Classification: HED achondrite (Eucrite)
History: Found by Ahmed Enaji on September 13, 2020. Bought from Zaid Oualguirah in 2020.
Physical characteristics: Several fusion crusted pieces with grey interior.
Petrography: (J. Gattacceca, CEREGE) Igneous rock with grain size about 500 µm. It contains melt rock areas, and other areas with variolitic texture. Main minerals are pyroxene and plagioclase. Other minerals: metal, troilite, chromite.
Zagora 003 is a fresh meteorite classified as eucrite of only 135 grams.
It was discovered near Zagora in Morocco by Ahmed Enaji on September 13, 2020.
The eucrites come from the Asteroid Vesta.
Writeup from MB 110 :
Zagora 003 30°20’51.94″N, 5°36’41.79″W
Morocco
Find: 2020 Sep 13
Classification: HED achondrite (Eucrite)
History: Found by Ahmed Enaji on September 13, 2020. Bought from Zaid Oualguirah in 2020.
Physical characteristics: Several fusion crusted pieces with grey interior.
Petrography: (J. Gattacceca, CEREGE) Igneous rock with grain size about 500 µm. It contains melt rock areas, and other areas with variolitic texture. Main minerals are pyroxene and plagioclase. Other minerals: metal, troilite, chromite.
Zagora 003 is a fresh meteorite classified as eucrite of only 135 grams.
It was discovered near Zagora in Morocco by Ahmed Enaji on September 13, 2020.
The eucrites come from the Asteroid Vesta.
Writeup from MB 110 :
Zagora 003 30°20’51.94″N, 5°36’41.79″W
Morocco
Find: 2020 Sep 13
Classification: HED achondrite (Eucrite)
History: Found by Ahmed Enaji on September 13, 2020. Bought from Zaid Oualguirah in 2020.
Physical characteristics: Several fusion crusted pieces with grey interior.
Petrography: (J. Gattacceca, CEREGE) Igneous rock with grain size about 500 µm. It contains melt rock areas, and other areas with variolitic texture. Main minerals are pyroxene and plagioclase. Other minerals: metal, troilite, chromite.
El Blida 006 is an oriented meteorite of 97 grams of type LL7. It was discovered near Zagora in Morocco in 2020 by Ahmed Najii.
It is a strongly crystallized brecciated meteorite with a beautiful fusion crust.
I sell the main mass of 74 grams, the rest was used for the classification, so it is a unique piece !
Writeup from MB 110 :
El Blida 006 29°51’32.98″N, 5°58’38.53″W
Morocco
Find: 2020
Classification: Ordinary chondrite (LL7)
History: Found by Ahmed Najii in 2020. Bought from Zaid Oualguirah in 2020 by Jean Redelsperger.
Physical characteristics: One oriented fully crusted stone.
Petrography: (J. Gattacceca, CEREGE) Highly recrystallized brecciated chondrite. Lithic clasts show triple junction, plagioclase to 200 µm, and only rare relict chondrules. Opaque minerals are metal and troilite.
Petrography: (J. Gattacceca, CEREGE) Igneous rock with doleritic texture. Main minerals are zoned pyroxene and maskelynite, with grain size ~500 μm. Other minerals: silica polymorph (100 μm), Fe-Ti oxides (100 μm).
Petrography: (J. Gattacceca, CEREGE) Igneous rock with doleritic texture. Main minerals are zoned pyroxene and maskelynite, with grain size ~500 μm. Other minerals: silica polymorph (100 μm), Fe-Ti oxides (100 μm).
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