Atoms Collection (page 3)

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)

Activated ghrelin hormone molecule C014 / 4902
Activated ghrelin hormone molecule. Computer model showing the crystal structure of the human hormone ghrelin. The crystal structure consists of both the secondary structure

Activated ghrelin hormone molecule C014 / 4903
Activated ghrelin hormone molecule. Computer model showing the structure of the human hormone ghrelin. Atoms are colour-coded spheres (carbon: grey, oxygen: red, nitrogen: blue)

Obestatin molecule C014 / 4908
Obestatin molecule. Computer artwork showing the structure of a molecule of obestatin. Obestatin is thought to supress hunger and reduce food intake, thereby reducing weight gain

Obestatin molecule C014 / 4909
Obestatin molecule. Computer artwork showing the structure of a molecule of obestatin. Obestatin is thought to supress hunger and reduce food intake, thereby reducing weight gain

Cholecystokinin-8 molecule C014 / 4894
Cholecystokinin-8 molecule. Computer model showing the structure of the terminal fragment of a molecule of the hormone cholecystokinin-8 (CCK-8)

Activated ghrelin hormone molecule C014 / 4901
Activated ghrelin hormone molecule. Computer model showing the crystal structure of the human hormone ghrelin. The crystal structure consists of both the secondary structure

Paracetamol molecule
Serotonin molecule. Computer model showing the structure of a molecule of the neurotransmitter (nerve signalling chemical) serotonin (5-hydroxytryptamine)

Carbon dioxide molecules C016 / 8495
Carbon dioxide molecules. Computer artwork showing the structure of a molecule of carbon dioxide. Carbon dioxide is a colourless gas that occurs naturally in the atmosphere

Carbon dioxide molecule C016 / 8494
Carbon dioxide molecule. Computer artwork showing the structure of a molecule of carbon dioxide. Carbon dioxide is a colourless gas that occurs naturally in the atmosphere

Carbon dioxide molecule C016 / 8493
Carbon dioxide molecule. Computer artwork showing the structure of a molecule of carbon dioxide. Carbon dioxide is a colourless gas that occurs naturally in the atmosphere

Buckminsterfullerene molecule C016 / 8372
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (spheres)

Buckminsterfullerene molecule C016 / 8370
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (spheres)

Buckminsterfullerene molecule C016 / 8368
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (spheres)

Buckminsterfullerene molecule C016 / 8369
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (spheres)

Buckminsterfullerene molecule C016 / 8364
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (spheres)

Buckminsterfullerene molecule C016 / 8367
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (spheres)

Buckminsterfullerene molecule C016 / 8363
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (spheres)

Buckminsterfullerene molecule C016 / 8361
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (orange)

Buckminsterfullerene molecule C016 / 8362
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (orange)

Buckminsterfullerene molecules C016 / 8359
Buckminsterfullerene molecules. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (black)

Buckminsterfullerene molecule C016 / 8358
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (black)

Buckminsterfullerene molecule C016 / 8357
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (black)

Buckminsterfullerene molecule C016 / 8351
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope) of carbon that has 60 carbon atoms (dark blue)

Carbon nanotube, artwork C016 / 8270
Carbon nanotube. Computer artwork of the inside of a carbon nanotube, also known as a buckytube, showing the hexagonal carbon structure

Carbon nanotube, artwork C016 / 8269
Carbon nanotube. Computer artwork of the inside of a carbon nanotube, also known as a buckytube, showing the hexagonal carbon structure

Vitamin B1 molecule C016 / 8278
Vitamin B1 molecule. Computer model showing the structure of a molecule of vitamin B1 (thiamine). Atoms are represented as colour-coded spheres: carbon (light blue), hydrogen (white)

Vitamin B1 molecule C016 / 8277
Vitamin B1 molecule. Computer model showing the structure of a molecule of vitamin B1 (thiamine). Vitamin B1 is an essential nutrient that humans are unable to produce

Vitamin B1 molecule C016 / 8276
Vitamin B1 molecule. Computer model showing the structure of a molecule of vitamin B1 (thiamine). Vitamin B1 is an essential nutrient that humans are unable to produce

Vitamin B1 molecule C016 / 8275
Vitamin B1 molecule. Computer model showing the structure of a molecule of vitamin B1 (thiamine). Vitamin B1 is an essential nutrient that humans are unable to produce

Carbon nanotube, artwork C016 / 8271
Carbon nanotube. Computer artwork of a carbon nanotube, also known as a buckytube, showing the hexagonal carbon structure. Atoms are represented as spheres and the bonds between them by rods

Buckminsterfullerene molecule C016 / 8268
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope)

Buckminsterfullerene molecule C016 / 8266
Buckminsterfullerene molecule. Computer artwork showing the molecular structure of buckminsterfullerene, a structurally distinct form (allotrope)

Carbon nanotubes in POM matrix, SEM C016 / 8042
Carbon nanotubes. Coloured scanning electron micrograph (SEM) of carbon nanotubes in a POM matrix. Carbon nanotubes are a type of fullerene, a structural type (allotrope) of carbon

Atomic interactions, conceptual image C013 / 5595
Atomic interactions, conceptual image. Computer artwork representing the interactions between atomic and sub-atomic particles

Space-centred cubic crystal structure. Computer artwork of a space-centred cubic crystal lattice, a common arrangement of atoms in solids

Hexagonal close-packed crystal structure. Computer artwork of a hexagonal close-packed crystal lattice, a common arrangement of atoms in solids

Vitamin B1 molecule. Computer model showing the structure of a molecule of vitamin B1 (thiamine). Vitamin B1 is an essential nutrient that humans are unable to produce

Testosterone hormone molecule. Computer model showing the structure of a molecule of the male sex hormone testosterone. Testosterone is the main human androgen

Progesterone hormone molecule. Computer model showing the structure of a molecule of the hormone progesterone. Progesterone is produced in the ovaries of women and the testes of men

Glyphosate weed killer molecule. Computer model showing the molecular structure of a molecule of the herbicide glyphosate. Glyphosate is a widely used herbicide

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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.