Atoms Collection (page 2)

Aurora Borealis and star trails over lake at night, Muonio, Lapland, Finland, September

Aurora Borealis, over coastline at night, Hornoya Island, Vardo, Finnmark, Norway, March

Aurora Borealis, over taiga forest at night, Finland, January

Space-filling model of section of polychloroethene or PVC molecule

Blue glass globe filled with bright plasma lines

Side view of a microscope with red and black wires

Adenine molecule, artwork C017 / 7200
Adenine molecule. Computer artwork showing the structure of a molecule of the nucleobase adenine. Atoms are colour-coded spheres: carbon (green), nitrogen (blue), and oxygen (white)

Thymine molecule, artwork C017 / 7366
Thymine molecule. Computer artwork showing the structure of a molecule of the nucleobase thymine. Atoms are colour-coded spheres: carbon (green), nitrogen (blue), oxygen (red), and hydrogen (white)

Thymine molecule, artwork C017 / 7365
Thymine molecule. Computer artwork showing the structure of a molecule of the nucleobase thymine. Atoms are colour-coded spheres: carbon (green), nitrogen (blue), oxygen (red), and hydrogen (white)

Nanospheres, artwork F006 / 7075
Nanospheres arranged in a circular shape, computer artwork

Tablet computer, insulin molecule F006 / 6311
Tablet computer showing a part of the molecule of human insulin. A single insulin molecule is made up of two chains of amino acids, the A and B chains, which are held together by di-sulphide bridges

Nanospheres, artwork F006 / 7094
Nanospheres arranged in a circular shape, computer artwork

Graphene sheet, artwork F006 / 7085
Graphene sheet, computer artwork. Graphene is a single layer of graphite. It is composed of hexagonally arranged carbon atoms (spheres). Graphene is very strong and flexible

Graphene sheet, artwork F006 / 7076
Graphene sheet, computer artwork. Graphene is a single layer of graphite. It is composed of hexagonally arranged carbon atoms (spheres). Graphene is very strong and flexible

Nanospheres, artwork F006 / 7082
Nanospheres arranged in a circular shape, computer artwork

Nanospheres, artwork F006 / 7079
Nanospheres arranged in a circular shape, computer artwork

Carbon nanotube F007 / 9900
Buckytube. Molecular model of part of the cage structure of a bucky- or nanotube. The spheres represent carbon atoms. In this structure hundreds of atoms form hexagon shapes along a tube

Carbon nanotube F007 / 9915
Buckytube. Molecular model of part of the cage structure of a bucky- or nanotube. The spheres represent carbon atoms. In this structure hundreds of atoms form hexagon shapes along a tube

Carbon nanotube F007 / 9910
Buckytube. Molecular model of part of the cage structure of a bucky- or nanotube. The spheres represent carbon atoms. In this structure hundreds of atoms form hexagon shapes along a tube

Bleomycin drug molecule F005 / 6675
Bleomycin, molecular model. Bleomycin is an antibiotic produced by the bacterium Streptomyces verticillus. It is used in the treatment of cancer and warts

Buckyball, Buckminsterfullerene molecule
Buckminsterfullerene molecule. Computer artwork of a molecular model of a fullerene molecule, a structurally distinct form (allotrope) of carbon

Organic chemistry building blocks C017 / 3599
Organic chemistry building blocks, conceptual image. Computer artwork showing how carbon (C, black) oxygen (O, red) and hydrogen (H)

Structure of matter, artwork C018 / 0948
Structure of matter. Computer artwork representing the Standard Model of particle physics. Shown here is a molecule of water (top centre)

Adenine molecule, artwork C017 / 7199
Adenine molecule. Computer artwork showing the structure of a molecule of the nucleobase adenine. Atoms are colour-coded spheres: carbon (green), nitrogen (blue), and oxygen (white)

Trametinib melanoma cancer drug F007 / 0197
Trametinib melanoma cancer drug, molecular model. Atoms are represented as spheres and are colour-coded: hydrogen (white), carbon (grey), oxygen (red), fluorine (dark yellow)

Glycerol phenylbutyrate drug molecule F007 / 0147
Glycerol phenylbutyrate urea cycle disorder drug, molecular model. Atoms are represented as spheres and are colour-coded: hydrogen (white), carbon (grey) and oxygen (red)

Benzoperylene molecular model F007 / 0116
Benzoperylene polycyclic aromatic hydrocarbon (PAH), molecular model. Benzoperylene is an environmental pollutant and suspected to be carcinogenic, mutagenic and teratogenic

Benzoperylene molecular model F007 / 0115
Benzoperylene polycyclic aromatic hydrocarbon (PAH), molecular model. Benzoperylene is an environmental pollutant and suspected to be carcinogenic, mutagenic and teratogenic

Alemtuzumab Fab fragment molecule F007 / 0097
Alemtuzumab Fab fragment, crystal structure. Alemtuzumab is a humanized monoclonal antibody that binds the CD52 protein and is used in the treatment of cancer and auto-immune disease

Afamelanotide skin pigmentation drug F007 / 0096
Afamelanotide skin pigmentation drug, molecular model. Afamelanotide is an analogue of alpha-melanocyte stimulating hormone (a-MSH)

Afamelanotide skin pigmentation drug F007 / 0095
Afamelanotide skin pigmentation drug, molecular model. Afamelanotide is an analogue of alpha-melanocyte stimulating hormone (a-MSH)

ITER Reaction vessel C018 / 3801
Artists concept view of the interior of the ITER reaction vessel. Nuclear fusion involves creating a plasma of superheated gas to temperatures of more than 200 million degrees C

Polyunsaturated fat molecule. Computer model showing the structure of three unsaturated fat molecules bound together to form a polyunsaturated fat molecule

Phospholipids in a membrane, artwork
Phospholipids in a membrane. Computer artwork showing a row of phospholipid molecules in a cell membrane. Phospholipids consist of a phosphate group head (top)

Phospholipid molecule, artwork
Phospholipid molecule. Computer artwork showing the structure of a phospholipid molecule. Phospholipids consist of a phosphate group head (top) and a fatty acid hydrophobic ( water-hating ) tail

Buckminsterfullerene molecule C016 / 8354
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (black)

ITER Fusion Research Reactor C016 / 9201
Artists concept view of the interior of the ITER reaction vessel. Nuclear fusion involves creating a plasma of superheated gas to temperatures of more than 200 million degrees C

Molecular structure, conceptual artwork C016 / 7534
Molecular structure, conceptual computer artwork

Fusion reactor, artwork C016 / 7497
Fusion reactor. Computer artwork of a reactor in which hydrogen fusion is taking place. Nuclear fusion is the joining (fusing) of light elements to form heavier elements

Sodium chloride structure C016 / 8873
Sodium chloride structure, molecular model. Sodium chloride (common salt) consists of a cubic lattice of sodium (small spheres) and chlorine (green) ions and has the chemical formula NaCl

Caffeine molecule, illustration C018 / 0753
Caffeine molecule, illustration. Caffeine is a stimulant drug found in the seeds and leaves of certain plants where it acts as a pesticide

Water molecules, artwork C017 / 7384
Water molecules. Computer artwork showing the molecular (top) and atomic (bottom) structure of water (H2O). Atoms are colour-coded: hydrogen (blue) and oxygen (white)

Ionic bonding in sodium chloride, artwork C017 / 7243
Ionic bonding in sodium chloride. Computer artwork showing the formation (top) of sodium chloride (common salt) and a model of the cubic crystal lattice (bottom) created by this chemical reaction

Hydrogen bonding in water, artwork C018 / 3560
Hydrogen bonding in water. Artwork showing the hydrogen bonding (yellow dotted lines) between five water molecules. There is a weak, partial negative charge on the oxygen atoms (red)

Niels Bohr, Danish physicist
Niels Bohr (1885-1962). Bust of the Danish physicist Niels Bohr outside Copenhagen University, Copenhagen, Denmark. Bohr won the Nobel Prize for Physics in 1922

Peptide YY obesity hormone molecule C014 / 4911
Peptide YY obesity hormone molecule. Computer model showing the crystal structure of a molecule of the hormone peptide YY (PYY, or PYY3-36)

Peptide YY obesity hormone molecule C014 / 4910
Peptide YY obesity hormone molecule. Computer model showing the crystal structure of a molecule of the hormone peptide YY (PYY, or PYY3-36)

Cholecystokinin-8 molecule C014 / 4895
Cholecystokinin-8 molecule. Computer model showing the structure of the terminal fragment of a molecule of the hormone cholecystokinin-8 (CCK-8)

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"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.