Metal Print : Electron orbitals
Metal Prints from Science Photo Library
Electron orbitals
Electron orbitals, computer model. An electron orbital is a region around an atomic nucleus (not seen) in which one or a pair of electrons is most likely to exist. For each orbital, The red area is where an electron has a positive wavefunction, and the blue area is where the wavefunction is negative. Electrons orbitals are defined by the regions in which an electron may not be found, which is known as a node. The number and distribution of electrons in an atoms orbitals plays a major role in determining the reactivity and chemical properties of the atom
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 6283469
© DR MARK J. WINTER/SCIENCE PHOTO LIBRARY
Atom Atomic Configuration Electron Electron Orbital Mechanical Orbital Orbitals Quantum Mechanics Quantum Physics Shadow Shadows Shell Computer Artwork Physical
15"x10" (38x25cm) Metal Print
Bring the fascinating world of atomic structure into your home or office with Media Storehouse's Metal Prints featuring this captivating image of electron orbitals from Science Photo Library. This meticulously crafted computer model illustrates the regions around an atomic nucleus where electrons are most likely to exist. Each Metal Print is expertly printed on high-quality metal, ensuring vibrant colors and exceptional clarity. Transform your space into a stunning scientific display with this intriguing representation of the subatomic 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
This print showcases the intricate world of electron orbitals, depicted through a computer model. Electron orbitals are the regions surrounding an atomic nucleus where electrons are most likely to exist. Although invisible to the naked eye, this image vividly illustrates their presence and characteristics. The red areas within each orbital represent positive wavefunctions, indicating high probability of finding an electron. Conversely, the blue areas signify negative wavefunctions. These distinct colors beautifully highlight the duality and complexity inherent in quantum mechanics. Electron orbitals are defined by nodes - regions where electrons cannot be found. These nodes create boundaries that shape the behavior and properties of atoms. The arrangement and distribution of electrons within these orbitals greatly influence an atom's reactivity and chemical traits. Through this mesmerizing illustration, we gain insight into the shadowy realm of atomic configurations and delve into the fundamental principles governing chemistry at its core. This artwork serves as a testament to humanity's tireless pursuit of understanding our physical world. Science Photo Library presents this remarkable piece without any commercial intent but rather as a means to appreciate scientific beauty and stimulate curiosity about quantum physics, electron orbitals, and their profound impact on our universe.
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.
