Description: 2.5X1.5X1 INCHES AT LONGEST POINTS AND WEIGHS 244 GMS. B-3-6-1CAMPO DEL CIELO METEORITE SCULPTURED CUT, CUT SIX WAYS TO SHOW MORE OF THE PATTERN FROM 6 DIFFERENT SURFACES!! CUT THE LONGEST WAY POSSIBLE FOR MAXIMUM SURFACE AREA!!! BETTER PRICE THAN ANYONE ELSE! 96 Normal 0 false false false EN-US X-NONE X-NONE Basic Information · Location: Campo del Cielo, Gran Chaco Gualamba, Argentina, about 500 miles north-northwest of Buenos Aries. Latitude 27 degrees 39 minutes South, Longitude 61 degrees 44 minutes West. · Structural Class: Coarse octahedrite, Og, Widmanstatten bandwidth 3.0 ±0.6 mm. · Chemical Class: Group I, 6.68% Ni, 0.43% Co, 0.25% P, 87 ppm Ga, 407 ppm Ge, 3.6 ppm Ir. · Time of Fall: 4,000 to 6,000 years ago History The first record of the Campo was in 1576. A Spanish governor learned of the iron from the Indians who reportedly believed that it had fallen from heaven. The governor sent an expedition under the command of one Captain de Miraval who brought back a few pieces of a huge iron mass he called Meson de Fierro (large table of iron). The location of the find was the Campo del Cielo (field of the sky or heaven), a fitting name for the location of a meteorite. Since the Indians believed that the irons fell from heaven the name may have come from the meteorites. The area is an open brush-covered plain that has little water and no other rocks--very good country in which to locate meteorites. Structure of the Campo del Cielo The Campo del Cielo is described as a polycrystalline coarse octahedrite. At 3 mm the Widmanstatten bands are thicker than those at Canyon Diablo or Odessa, but still thin enough to have the same coarse octahedrite classification. The mass was composed of large austenite crystals from 5 to 50 cm in size. On break-up the fragments were cold worked like those at Sikhote-Alin and Gibeon. It has been hypothesized that the original body was tabular in shape and broke up on entry into the atmosphere. Chemistry of the Campo del Cielo The Campo del Cielo is classified in Group I, , 6.68% Ni, 0.43% Co, 0.25% P, 87 ppm Ga, 407 ppm Ge, 3.6 ppm Ir. Of course, almost all of the remaining portion of the meteorite is iron. The important minerals are: · Kamacite--this iron nickel alloy makes about 90 percent of specimens in finger size and width crystals. Neumann bands are common. · Taenite and plessite, the other iron-nickel alloy constituents are found at grain boundaries. · Schreibersite is uncommon. · Troilite is found aggregates with graphite and silicates. On Jul-11-09 at 16:20:03 PDT, seller added the following information: INTERNATIONAL CUSTOMERS MAY HAVE TO PAY A DUTY UPON RECEIPT OF THE ITEM. THE AMOUNT WILL VARY BY INDIVIDUAL COUNTRYOn Aug-20-10 at 06:36:55 PDT, seller added the following information:IMCA MEMBER NO. 8249 INTERNATIONAL CUSTOMERS MAY HAVE TO PAY DUTY OR VAT TAX EITHER THROUGH EBAY GLOBAL SHIPPING OR UPON RECEIPT OF THE ITEM PURCHASED. ATTENTION INTERNATIONAL CUSTOMERS: ALL INTERNATIONAL SHIPMENTS WILL BE DECLARED AT FULL VALUE, DO NOT ASK US TO CHANGE VALUES ON THE CUSTOMS PAPERWORK.
Price: 179.1 USD
Location: Malone, New York
End Time: 2024-10-24T21:48:36.000Z
Shipping Cost: 0 USD
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Item Specifics
Restocking Fee: No
Return shipping will be paid by: Seller
All returns accepted: Returns Accepted
Item must be returned within: 30 Days
Refund will be given as: Money Back
Mineral: Meteorite
Item+Type: Meteorites+&+Tektites
Type+of+Mineral: meteorite
Type of Mineral: SILICATE/ IRON
Specimen+Type: Display+Specimens
Item Type: Meteorite
Country/Region of Manufacture: Argentina
