Atoms Collection (page 6)

Generic molecule, artwork
Generic molecule in wide-angle view. In molecular models such as this, atoms are shown as spheres and the bonds between them as rods

Chemistry research
MODEL RELEASED. Chemistry research. Researcher looking at a molecular model

Buckyball, C60 Buckminsterfullerene
Buckminsterfullerene molecule. Molecular model of a fullerene molecule, a structurally distinct form (allotrope) of carbon

Oxygen molecule, computer artwork. Molecular model of an oxygen molecule (O2). Two oxygen atoms (purple) are joined together. Oxygen is a colourless, odourless gas and is part of the chalcogen group

Computer graphic of a segment of beta DNA
DNA. Computer model of part of a molecule of DNA (deoxyribonucleic acid). DNA is the molecule that controls the growth and development of all living things

DNA recombination, molecular model
DNA recombination. Molecular model of a Holliday Junction, a moving point of contact between two DNA (deoxyribonucleic acid)

Generic molecules, artwork
Artwork of generic molecules. In molecular models such as this, atoms are shown as spheres and the bonds between them as rods

Carbon nanotube and buckyball, artwork
Carbon nanotube and buckyball. Computer artwork showing the hexagonal carbon structures of a buckyball (yellow) inside a carbon nanotube, or buckytube (grey)

Molecular structures, computer artwork. In molecular models such as these, atoms are shown as spheres and the bonds between them as rods

HIV DNA, molecular model
HIV DNA. Molecular model of a sequence of DNA (deoxyribonucleic acid) produced by HIV (the human immunodeficiency virus) after infecting a human cell

Molecular structure, conceptual artwork
Molecular structure, conceptual computer artwork. Atoms are shown as spheres and the bonds between them as rods

Molecular structure, artwork
Molecular structure, computer artwork. Atoms are shown as spheres and the bonds between them as rods

Molecular structure, computer artwork. In molecular models such as these, atoms are shown as spheres and the bonds between them as rods

Levitra drug molecule
Levitra. Molecular model of the drug vardenafil, marketed under the brand Levitra. Atoms are represented as spheres and are colour-coded: carbon (black), hydrogen (silver), nitrogen (blue)

Molecular vibration, conceptual artwork
Molecular vibration, conceptual computer artwork. Atoms are shown as spheres and the bonds between them as rods

Aspirin drug molecule
Aspirin. Molecular model of the drug aspirin (acetylsalicylic acid). Atoms are represented as spheres and are colour coded: carbon (blue), oxygen (red) and hydrogen (grey)

Cialis drug molecule
Cialis. Molecular model of the drug tadalafil, marketed under the brand Cialis. Atoms are represented as spheres and are colour-coded: carbon (black), hydrogen (grey), nitrogen (blue), oxygen (red)

Z-DNA, molecular model
Z-DNA. Molecular model of a strand of Z-DNA, the rare, left-handed form of DNA (deoxyribonucleic acid). DNA is a helical molecule (here spiralling across the image)

DNA loop, molecular model
DNA loop. Theoretical molecular model of a loop structure for DNA in its chromatin form. DNA (deoxyribonucleic acid) is a helical molecule (here the helix itself forms a circular loop)

DNA molecular surface
DNA. Computer model of the surface of part of a DNA (deoxyribonucleic acid) helix. The atoms show as spheres in this electrostatic potential map

DNA nanotechnology, computer artwork
DNA nanotechnology. Conceptual computer artwork of DNA nanotechnology, showing carbon nanotubes (allotropes of carbon) surrounding a molecule of DNA (deoxyribonucleic acid)

Fluoxetine drug molecule
Fluoxetine. Molecular model of the drug fluoxetine, which is marketed under the brand Prozac. Atoms are represented as spheres and are colour-coded: carbon (black), hydrogen (silver)

Viagra drug molecule
Viagra. Molecular model of the drug sildenafil citrate, marketed under the brands Viagra and Revatio. Atoms are represented as spheres and are colour-coded: carbon (black), hydrogen (silver)

Big Bang, conceptual image. The Big Bang (represented at upper left) is a huge explosion that is believed to have created the universe 13.7 billion years ago

Aurora watching, time-exposure image
Aurora watching. Time-exposure image of an aurora watcher by a fire, observing an auroral display in the northern hemisphere

Dabigatran etexilate drug molecule. This anticoagulant drug has the molecular formula C34.H41.N7.O5. The atoms (rods) are colour-coded: carbon (purple), hydrogen (white), nitrogen (pink)

All Professionally Made to Order for Quick Shipping

"Unveiling the Mysteries of Atoms: From Northern Lights to Quantum Marvels" Witness the captivating dance under the shimmering Northern lights, a celestial spectacle that mirrors their intricate nature. Niels Bohr, a pioneer in atomic theory, immortalized through a whimsical caricature capturing his profound contributions to our understanding of atoms. Behold the explosive beauty of nuclear fission artwork, showcasing the immense power harnessed within tiny atomic nuclei. Delve into the microscopic world as we explore HIV reverse transcription enzyme—a remarkable atom-driven process crucial for viral replication. Ernest Rutherford's genius encapsulated in an amusing caricature, symbolizing his groundbreaking experiments that unraveled atomic structure. Embark on an artistic journey depicting the evolution of our universe—where atoms play a pivotal role in shaping cosmic wonders beyond imagination. Witness the exhilarating collision between particles—an awe-inspiring event revealing hidden secrets about matter and energy at its most fundamental level. Step into a simulated realm where Bose-Einstein condensate defies conventional physics—unleashing mind-bending phenomena like superfluidity and quantum coherence. Discover oxytocin—the enchanting neurotransmitter molecule responsible for bonding and affection, reminding us how atoms shape human emotions and connections. Explore density within a Bose-Einstein condensate—a surreal state where atoms merge into one entity with extraordinary properties yet to be fully understood by science. Bonus: Dive into "When The Atoms Failed, " an intriguing cover story from Amazing Stories Scifi magazine—transporting readers to alternate realities shaped by unexpected atomic anomalies. Witness nature's own masterpiece as Aurora Borealis illuminates a snowy coniferous forest in Northern Finland—a breathtaking reminder of how atoms interact with Earth's magnetic field to create this ethereal phenomenon during March nights.