Frame
Top Mat
Bottom Mat
Dimensions
Image:
12.00" x 8.00"
Overall:
12.00" x 8.00"
Europa's icefield Part 2 Canvas Print
by David Robinson
Product Details
Europa's icefield Part 2 canvas print by David Robinson. Bring your artwork to life with the texture and depth of a stretched canvas print. Your image gets printed onto one of our premium canvases and then stretched on a wooden frame of 1.5" x 1.5" stretcher bars (gallery wrap) or 5/8" x 5/8" stretcher bars (museum wrap). Your canvas print will be delivered to you "ready to hang" with pre-attached hanging wire, mounting hooks, and nails.
Design Details
Looking back at Jupiter from the ice fields of Europa. It is believed that Europa has an outer layer of water around 100 km (62 mi) thick; some as... more
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3 - 4 business days
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Comments (1)
Artist's Description
Looking back at Jupiter from the ice fields of Europa. It is believed that Europa has an outer layer of water around 100 km (62 mi) thick; some as frozen-ice upper crust, some as liquid ocean underneath the ice. Recent magnetic field data from the Galileo orbiter showed that Europa has an induced magnetic field through interaction with Jupiter's,
About David Robinson
David Robinson is a 2D and 3D digital artist. He has been a member of and staff artist for Ad Astra Magazine for the National Space Society. He is also the current staff artist for the Orange County Space Society California and the Journal of United Societies in Space, Inc. He has created artwork for the Mars Homestead Project to book cover illustrations dealing with astronomical and astronautical events dealing with both human and non human space travel. David was also recently picked to judge the Space Art Calendar contest sponsored by the National Space Society. David was one of eight artists picked to highlight the latest version of the 3D program Bryce by DAZ and you can find his Bio there. Bryce has currently over one million...
$65.00
Louis J Boston II
Excellent perspective of the Jovian giant, as seen from Eurpoa. - It's interesting how both the gravitational and magnetic influence from Jupiter are ultimately equated to not only heat transferance of, ice-to-water on Eurpopa, Ganymeda, and Callisoto, but also the daily influence of volcanic activity from Io!