Frame
Top Mat
Bottom Mat
Dimensions
Image:
8.00" x 7.50"
Overall:
8.00" x 7.50"
About To Pop Wood Print
by Laura Brightwood
Product Details
About To Pop wood print by Laura Brightwood. Bring your artwork to life with the texture and added depth of a wood print. Your image gets printed directly onto a sheet of 3/4" thick maple wood. There are D-clips on the back of the print for mounting it to your wall using mounting hooks and nails (included).
Design Details
Why are bubbles always round?
Ships Within
3 - 4 business days
Additional Products
Wood Print Tags
Photograph Tags
Comments (7)
Artist's Description
Why are bubbles always round?
About Laura Brightwood
Laura Brightwood is a professional fine and digital artist and writer. Her work is published in both word and image. Her work is featured as the cover artist and illustrator for multiple children's picture books and educational curriculum. Laura's commissioned human and animal portraiture have been the delight of many. Using both digital and traditional mediums, Laura is an artist who begins from the elements of fine art and uses the technology of digital mediums to blend the two. Her home is Hillsborough, NC. Laura is a native of Kentucky, having completed both her undergraduate and masters studies in the Bluegrass state. She is a psychotherapist, mom, and servant to three cats. Laura Brightwood Art - IllustratorPromote Your...
$51.00
Brad Emerick
Wow great capture. I also live in Hillsborough and work at Sports Endeavors in the creative department. Hoping to unleash some landscape paintings soon :)
Dale Ford
Just beautiful, Laura. I think I'll go blow some bubbles. f/v
Melanie Vough
cool
Kelly Jones
Perfect!!
Paulette Wright
Very nice! This is a fantastic image!
Warren Sarle
The description of this pleasant photo asks, "Why are bubbles always round?" The surface tension of the bubble tries to make the surface area of the bubble as small as possible, creating inward pressure on the air inside the bubble, which is resisted by the outward pressure of the air arising from heat. These forces reach equilibrium when the shape of the bubble minimizes the surface area for a given volume. This minimum is achieved by a sphere, assuming that we are talking about a single bubble.