FREE UK DELIVERY + CERTIFICATE OF AUTHENTICITY

To receive your gifts in time for Christmas - please order before 17 December

For international delivery - please order before 12 December

More Views

NWA Meteorite - 56g

SKU:TFS0451
£102.00

Availability:In stock

Details:

A North West Africa (NWA) Meteorite of 56 grams separated from a more substantial meteor body entering the earth’s stratosphere. Formed of semi-molten particles of the solar nebula. By accumulation or coalescence, particles merge to form asteroid belts which in turn fall to more massive planetary bodies such as the earth as meteorites. Meteorites more easily discovered in flat open spaces such as desert regions and specifically Antartica, make collecting a highly specialised field activity.

Meteorite measurements.
Height: 3.6 cm
Width: 4 cm
Depth: 2.5 cm

Approximate weight: 0.056 g

security logo enforcing our security levels using SSL certificate and encrypted software for your protection100% Secure. 128-bit Encryption

Free UK delivery - Recorded/Signed-for

Worldwide delivery available

Certificate of authenticity included

For EU & ROW delivery estimates please add your item/s to the cart and enter your desired destination.

 
 

 

Details

Here we have a NWA meteorite 56 grams separated from a larger meteor on entry to the earth’s atmosphere. Impacting in the Saharan western desert. The iron meteorite displays a glassy molten surface, the interior structure can be observed where surface impact fractures occur.


The Chondrite meteorites contain chondrules, these are microscopic spheres which are reputedly the building blocks of our planetary systems. Chondrites by repute originate from asteroids orbiting our solar system. Science can identify Chondrite meteorites which contain up to approximately 20% of iron and nickel, these minute iron and nickel sized spherical mineralised chondrules are often found in iron chondrites.


These Chondrules are formed from molten particles of the solar nebula, by accumulation or coalescence, particles merge together to form asteroid belts which in turn fall to earth as meteorites. These Chondrites differ from iron meteorites due to their low iron content. Most importantly chondrites offer a greater understanding, allowing scientists to further analyse and give great insight into the age of our solar system.

Additional Information

SKU TFS0451
Age No
Origin Space