Metal Print > Abstract Art > Related Images
Metal Print : Carbonate. The formation of carbonate on the Allan Hills martian meteorite ALH84001
Metal Prints from Mary Evans Picture Library
Carbonate. The formation of carbonate on the Allan Hills martian meteorite ALH84001
Mary Evans Picture Library makes available wonderful images created for people to enjoy over the centuries
Media ID 8582301
© Mary Evans Picture Library 2015 - https://copyrighthub.org/s0/hub1/creation/maryevans/MaryEvansPictureID/10711167
Abstract Achondrite Antarctic Antarctica Carbonate Carbonate Mineral Deposit Hills Martian Meteorite Mineral Space Stone Meteorite Stony Meteorite
15"x10" (38x25cm) Metal Print
Discover the wonders of the universe with Media Storehouse's Metal Prints featuring the captivating image of Carbonate Formation on the Allan Hills Martian Meteorite ALH84001, exclusively sourced from Mary Evans Prints Online. Our high-quality Metal Prints transform your favorite images into stunning, long-lasting works of art. The vivid colors and exceptional detail of this Martian carbonate formation are brought to life on the sleek, durable metal surface, making it a mesmerizing addition to any space-themed decor or scientific collection. Elevate your home or office with this unique and intriguing piece of art that ignites the imagination and inspires awe. Order now and bring a piece of the cosmos into your world.
Your image is printed photographically and bonded to a 3.5mm thick, Dibond board (black polyethylene sandwiched between two sheets of white coated aluminium). The panel is then sealed with a gloss protective covering. Supplied complete with a wall mount which holds the print 10mm from the wall.
Made with durable metal and luxurious printing techniques, metal prints bring images to life and add a modern touch to any space
Estimated Product Size is 38.1cm x 25.4cm (15" x 10")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with landscape (horizontal) or portrait (vertical) orientation to match the source image.
EDITORS COMMENTS
In this studio shot, a fragment of the Allan Hills martian meteorite ALH84001 is showcased, revealing the intriguing carbonate deposits that have captured the scientific community's imagination. Discovered in Antarctica in 1984, this stony meteorite, classified as an achondrite, is believed to have originated from the Mars' northern highlands. The carbonate minerals, visible in both green and yellow hues, are a testament to the complex geological history of the Red Planet. The formation of these minerals on Mars has long been a subject of debate, with some scientists suggesting that they could be evidence of ancient water activity or even microbial life. The Allan Hills meteorite, a precious relic from the cosmos, is displayed against a dark background, allowing the carbonate deposits to stand out in stark relief. The abstract, otherworldly scene invites the viewer to ponder the mysteries of the universe and the potential for life beyond Earth. This image offers a unique glimpse into the geological wonders of Mars, captured in exquisite detail. The carbonate minerals, with their intricate patterns and vibrant colors, serve as a reminder of the ongoing scientific exploration of our solar system and the discoveries that await us in the vast expanse of space. The Allan Hills meteorite, with its carbonate deposits, continues to be a source of fascination and inspiration for researchers and space enthusiasts alike. This stunning photograph is a testament to the beauty and complexity of the natural world, both on Earth and beyond.
MADE IN THE UK
Safe Shipping with 30 Day Money Back Guarantee
FREE PERSONALISATION*
We are proud to offer a range of customisation features including Personalised Captions, Color Filters and Picture Zoom Tools
SECURE PAYMENTS
We happily accept a wide range of payment options so you can pay for the things you need in the way that is most convenient for you
* Options may vary by product and licensing agreement. Zoomed Pictures can be adjusted in the Basket.
