Grid view List view

Showing 109–126 of 381 results

Chelyabinsk LL5 IMB #19 – 4,5 g

117,72 $

The Chelyabinsk meteorite fell on February 15, 2013 in Russia.

With a diameter of around 17 metres, the bolide fragmented in the atmosphere. The energy released by this phenomenon is equivalent to 30 times the Hiroshima bomb, creating enormous damage.

More than 1,000 people were injured as a result. Indeed, since light travels much faster (300,000 km/s) than sound (340m/s), people stood behind their windows to observe the light phenomenon, only for the shockwave to arrive a minute later, shattering hundreds of panes of glass and partially damaging a factory, causing many injuries from broken glass.

The event received extensive media coverage.

Add to cart

Chelyabinsk LL5 IMB #18 – 7,3 g

190,25 $

The Chelyabinsk meteorite fell on February 15, 2013 in Russia.

With a diameter of around 17 metres, the bolide fragmented in the atmosphere. The energy released by this phenomenon is equivalent to 30 times the Hiroshima bomb, creating enormous damage.

More than 1,000 people were injured as a result. Indeed, since light travels much faster (300,000 km/s) than sound (340m/s), people stood behind their windows to observe the light phenomenon, only for the shockwave to arrive a minute later, shattering hundreds of panes of glass and partially damaging a factory, causing many injuries from broken glass.

The event received extensive media coverage.

Add to cart

Chelyabinsk LL5 IMB #17 – 9,2 g

240,18 $

The Chelyabinsk meteorite fell on February 15, 2013 in Russia.

With a diameter of around 17 metres, the bolide fragmented in the atmosphere. The energy released by this phenomenon is equivalent to 30 times the Hiroshima bomb, creating enormous damage.

More than 1,000 people were injured as a result. Indeed, since light travels much faster (300,000 km/s) than sound (340m/s), people stood behind their windows to observe the light phenomenon, only for the shockwave to arrive a minute later, shattering hundreds of panes of glass and partially damaging a factory, causing many injuries from broken glass.

The event received extensive media coverage.

Add to cart

Oued el Hadjar LL6 #3 – 0,6 g

39,24 $

Oued el Hadjar fell in March 1986 in Morocco.

Nomads heard a powerful whistling sound and saw a 1215.5 g stone fall 200 m from their tent. The stone was broken into several pieces (sacrificed on an altar) 15 days later during a wedding ceremony.

It was meteorite hunter Michel Franco who later found this meteorite and marketed it.

Add to cart

Oued el Hadjar LL6 #2 – 0,9 g

58,26 $

Oued el Hadjar fell in March 1986 in Morocco.

Nomads heard a powerful whistling sound and saw a 1215.5 g stone fall 200 m from their tent. The stone was broken into several pieces (sacrificed on an altar) 15 days later during a wedding ceremony.

It was meteorite hunter Michel Franco who later found this meteorite and marketed it.

Add to cart

Oued el Hadjar LL6 #1 – 0,7 g

46,37 $

Oued el Hadjar fell in March 1986 in Morocco.

Nomads heard a powerful whistling sound and saw a 1215.5 g stone fall 200 m from their tent. The stone was broken into several pieces (sacrificed on an altar) 15 days later during a wedding ceremony.

It was meteorite hunter Michel Franco who later found this meteorite and marketed it.

Add to cart
Out of stock

NWA 15972 LL3 (estimated subtype 3.2) #9 – 1.3 g

29,72 $

NWA 15972 is a beautiful LL3 chondrite weighing just 317 grams.

This meteorite was analyzed at Cerege by Jérôme Gattacceca.

Writeup from MB 112:

Northwest Africa 15972 (NWA 15972)

Morocco

Purchased: 2022

Classification: Ordinary chondrite (LL3)

History: Found in Morocco, and bought by Jean Redelsperger in Guelmim in 2022

Physical characteristics: Some fragments are partially crusted.

Petrography: (J. Gattacceca, CEREGE) Chondrite with packed chondrules ~800 µm set in a fine-grained matrix. Opaque minerals are metal and troilite.

Geochemistry: Olivine Fa14.2±8.1, range Fa0.4-29.9, Fa PMD 46% (n=18). Cr2O3 in ferroan olivine 0.157±0.089 wt% (n=17). Low-Ca pyroxene Fs8.4±3.5Wo1.8±1.4 (n=5).

Classification: Ordinary chondrite (LL3). LL group based on chodrule size and magnetic susceptibility. Sub>he Cr2O3 content of ferroan olivine. Estimated subtype 3.2 based on the olivine Fa PMD.

Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger.

 

Details

NWA 15972 LL3 (estimated subtype 3.2) #8 – 5.4 g

122,47 $

NWA 15972 is a beautiful LL3 chondrite weighing just 317 grams.

This meteorite was analyzed at Cerege by Jérôme Gattacceca.

Writeup from MB 112:

Northwest Africa 15972 (NWA 15972)

Morocco

Purchased: 2022

Classification: Ordinary chondrite (LL3)

History: Found in Morocco, and bought by Jean Redelsperger in Guelmim in 2022

Physical characteristics: Some fragments are partially crusted.

Petrography: (J. Gattacceca, CEREGE) Chondrite with packed chondrules ~800 µm set in a fine-grained matrix. Opaque minerals are metal and troilite.

Geochemistry: Olivine Fa14.2±8.1, range Fa0.4-29.9, Fa PMD 46% (n=18). Cr2O3 in ferroan olivine 0.157±0.089 wt% (n=17). Low-Ca pyroxene Fs8.4±3.5Wo1.8±1.4 (n=5).

Classification: Ordinary chondrite (LL3). LL group based on chodrule size and magnetic susceptibility. Sub>he Cr2O3 content of ferroan olivine. Estimated subtype 3.2 based on the olivine Fa PMD.

Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger.

 

Add to cart
Out of stock

NWA 15972 LL3 (estimated subtype 3.2) #7 – 1.3 g

29,72 $

NWA 15972 is a beautiful LL3 chondrite weighing just 317 grams.

This meteorite was analyzed at Cerege by Jérôme Gattacceca.

Writeup from MB 112:

Northwest Africa 15972 (NWA 15972)

Morocco

Purchased: 2022

Classification: Ordinary chondrite (LL3)

History: Found in Morocco, and bought by Jean Redelsperger in Guelmim in 2022

Physical characteristics: Some fragments are partially crusted.

Petrography: (J. Gattacceca, CEREGE) Chondrite with packed chondrules ~800 µm set in a fine-grained matrix. Opaque minerals are metal and troilite.

Geochemistry: Olivine Fa14.2±8.1, range Fa0.4-29.9, Fa PMD 46% (n=18). Cr2O3 in ferroan olivine 0.157±0.089 wt% (n=17). Low-Ca pyroxene Fs8.4±3.5Wo1.8±1.4 (n=5).

Classification: Ordinary chondrite (LL3). LL group based on chodrule size and magnetic susceptibility. Sub>he Cr2O3 content of ferroan olivine. Estimated subtype 3.2 based on the olivine Fa PMD.

Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger.

 

Details

NWA 15972 LL3 (estimated subtype 3.2) #6 – 3.3 g.

74,90 $

NWA 15972 is a beautiful LL3 chondrite weighing just 317 grams.

This meteorite was analyzed at Cerege by Jérôme Gattacceca.

Writeup from MB 112:

Northwest Africa 15972 (NWA 15972)

Morocco

Purchased: 2022

Classification: Ordinary chondrite (LL3)

History: Found in Morocco, and bought by Jean Redelsperger in Guelmim in 2022

Physical characteristics: Some fragments are partially crusted.

Petrography: (J. Gattacceca, CEREGE) Chondrite with packed chondrules ~800 µm set in a fine-grained matrix. Opaque minerals are metal and troilite.

Geochemistry: Olivine Fa14.2±8.1, range Fa0.4-29.9, Fa PMD 46% (n=18). Cr2O3 in ferroan olivine 0.157±0.089 wt% (n=17). Low-Ca pyroxene Fs8.4±3.5Wo1.8±1.4 (n=5).

Classification: Ordinary chondrite (LL3). LL group based on chodrule size and magnetic susceptibility. Sub>he Cr2O3 content of ferroan olivine. Estimated subtype 3.2 based on the olivine Fa PMD.

Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger.

 

Add to cart

NWA 15972 LL3 (estimated subtype 3.2) #5 – 4 g

90,37 $

NWA 15972 is a beautiful LL3 chondrite weighing just 317 grams.

This meteorite was analyzed at Cerege by Jérôme Gattacceca.

Writeup from MB 112:

Northwest Africa 15972 (NWA 15972)

Morocco

Purchased: 2022

Classification: Ordinary chondrite (LL3)

History: Found in Morocco, and bought by Jean Redelsperger in Guelmim in 2022

Physical characteristics: Some fragments are partially crusted.

Petrography: (J. Gattacceca, CEREGE) Chondrite with packed chondrules ~800 µm set in a fine-grained matrix. Opaque minerals are metal and troilite.

Geochemistry: Olivine Fa14.2±8.1, range Fa0.4-29.9, Fa PMD 46% (n=18). Cr2O3 in ferroan olivine 0.157±0.089 wt% (n=17). Low-Ca pyroxene Fs8.4±3.5Wo1.8±1.4 (n=5).

Classification: Ordinary chondrite (LL3). LL group based on chodrule size and magnetic susceptibility. Sub>he Cr2O3 content of ferroan olivine. Estimated subtype 3.2 based on the olivine Fa PMD.

Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger.

 

Add to cart

NWA 15972 LL3 (estimated subtype 3.2) #4 – 3 g

67,78 $

NWA 15972 is a beautiful LL3 chondrite weighing just 317 grams.

This meteorite was analyzed at Cerege by Jérôme Gattacceca.

Writeup from MB 112:

Northwest Africa 15972 (NWA 15972)

Morocco

Purchased: 2022

Classification: Ordinary chondrite (LL3)

History: Found in Morocco, and bought by Jean Redelsperger in Guelmim in 2022

Physical characteristics: Some fragments are partially crusted.

Petrography: (J. Gattacceca, CEREGE) Chondrite with packed chondrules ~800 µm set in a fine-grained matrix. Opaque minerals are metal and troilite.

Geochemistry: Olivine Fa14.2±8.1, range Fa0.4-29.9, Fa PMD 46% (n=18). Cr2O3 in ferroan olivine 0.157±0.089 wt% (n=17). Low-Ca pyroxene Fs8.4±3.5Wo1.8±1.4 (n=5).

Classification: Ordinary chondrite (LL3). LL group based on chodrule size and magnetic susceptibility. Subty> the Cr2O3 content of ferroan olivine. Estimated subtype 3.2 based on the olivine Fa PMD.

Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger.

 

Add to cart

NWA 15972 LL3 (estimated subtype 3.2) #3 – 2.3 g

52,32 $

NWA 15972 is a beautiful LL3 chondrite weighing just 317 grams.

This meteorite was analyzed at Cerege by Jérôme Gattacceca.

Writeup from MB 112:

Northwest Africa 15972 (NWA 15972)

Morocco

Purchased: 2022

Classification: Ordinary chondrite (LL3)

History: Found in Morocco, and bought by Jean Redelsperger in Guelmim in 2022

Physical characteristics: Some fragments are partially crusted.

Petrography: (J. Gattacceca, CEREGE) Chondrite with packed chondrules ~800 µm set in a fine-grained matrix. Opaque minerals are metal and troilite.

Geochemistry: Olivine Fa14.2±8.1, range Fa0.4-29.9, Fa PMD 46% (n=18). Cr2O3 in ferroan olivine 0.157±0.089 wt% (n=17). Low-Ca pyroxene Fs8.4±3.5Wo1.8±1.4 (n=5).

Classification: Ordinary chondrite (LL3). LL group based on chodrule size and magnetic susceptibility. Subtype >based on the Cr2O3 content of ferroan olivine. Estimated subtype 3.2 based on the olivine Fa PMD.

Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger.

 

Add to cart
Out of stock

NWA 15972 LL3 (estimated subtype 3.2) #2 – 3.2 g

83,23 $

NWA 15972 is a beautiful LL3 chondrite weighing just 317 grams.

This meteorite was analyzed at Cerege by Jérôme Gattacceca.

Writeup from MB 112:

Northwest Africa 15972 (NWA 15972)

Morocco

Purchased: 2022

Classification: Ordinary chondrite (LL3)

History: Found in Morocco, and bought by Jean Redelsperger in Guelmim in 2022

Physical characteristics: Some fragments are partially crusted.

Petrography: (J. Gattacceca, CEREGE) Chondrite with packed chondrules ~800 µm set in a fine-grained matrix. Opaque minerals are metal and troilite.

Geochemistry: Olivine Fa14.2±8.1, range Fa0.4-29.9, Fa PMD 46% (n=18). Cr2O3 in ferroan olivine 0.157±0.089 wt% (n=17). Low-Ca pyroxene Fs8.4±3.5Wo1.8±1.4 (n=5).

Classification: Ordinary chondrite (LL3). LL group based on chodrule size and magnetic susceptibility. Subtype >3.2 based on the Cr2O3 content of ferroan olivine. Estimated subtype 3.2 based on the olivine Fa PMD.

Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger.

 

Details

NWA 15972 LL3 (estimated subtype 3.2) #1 – 10.3 g

233,05 $

NWA 15972 is a beautiful LL3 chondrite weighing just 317 grams.

This meteorite was analyzed at Cerege by Jérôme Gattacceca.

Writeup from MB 112:

Northwest Africa 15972 (NWA 15972)

Morocco

Purchased: 2022

Classification: Ordinary chondrite (LL3)

History: Found in Morocco, and bought by Jean Redelsperger in Guelmim in 2022

Physical characteristics: Some fragments are partially crusted.

Petrography: (J. Gattacceca, CEREGE) Chondrite with packed chondrules ~800 µm set in a fine-grained matrix. Opaque minerals are metal and troilite.

Geochemistry: Olivine Fa14.2±8.1, range Fa0.4-29.9, Fa PMD 46% (n=18). Cr2O3 in ferroan olivine 0.157±0.089 wt% (n=17). Low-Ca pyroxene Fs8.4±3.5Wo1.8±1.4 (n=5).

Classification: Ordinary chondrite (LL3). LL group based on chondrule size and magnetic susceptibility. Sub>he Cr2O3 content of ferroan olivine. Estimated subtype 3.2 based on the olivine Fa PMD.

Specimens: Type specimen at CEREGE. Main mass with Jean Redelsperger.

 

Add to cart

Chelyabinsk LL5 #16 – 2,08 g

49,94 $

The Chelyabinsk meteorite fell on February 15, 2013 in Russia.

With a diameter of around 17 metres, the bolide fragmented in the atmosphere. The energy released by this phenomenon is equivalent to 30 times the Hiroshima bomb, creating enormous damage.

More than 1,000 people were injured as a result. Indeed, since light travels much faster (300,000 km/s) than sound (340m/s), people stood behind their windows to observe the light phenomenon, only for the shockwave to arrive a minute later, shattering hundreds of panes of glass and partially damaging a factory, causing many injuries from broken glass.

The event received extensive media coverage.

Add to cart

Chelyabinsk LL5 #15 – 1,84 g

43,99 $

The Chelyabinsk meteorite fell on February 15, 2013 in Russia.

With a diameter of around 17 metres, the bolide fragmented in the atmosphere. The energy released by this phenomenon is equivalent to 30 times the Hiroshima bomb, creating enormous damage.

More than 1,000 people were injured as a result. Indeed, since light travels much faster (300,000 km/s) than sound (340m/s), people stood behind their windows to observe the light phenomenon, only for the shockwave to arrive a minute later, shattering hundreds of panes of glass and partially damaging a factory, causing many injuries from broken glass.

The event received extensive media coverage.

Add to cart
Out of stock

Chelyabinsk LL5 #14 – 1,95 g

46,37 $

The Chelyabinsk meteorite fell on February 15, 2013 in Russia.

With a diameter of around 17 metres, the bolide fragmented in the atmosphere. The energy released by this phenomenon is equivalent to 30 times the Hiroshima bomb, creating enormous damage.

More than 1,000 people were injured as a result. Indeed, since light travels much faster (300,000 km/s) than sound (340m/s), people stood behind their windows to observe the light phenomenon, only for the shockwave to arrive a minute later, shattering hundreds of panes of glass and partially damaging a factory, causing many injuries from broken glass.

The event received extensive media coverage.

Details