Atom Collection (page 16)

Structure of matter, artwork C017 / 8029
Structure of matter. Computer artwork representing the Standard Model of particle physics. Shown here are an atom (left) composed of electrons (blue) orbiting a central nucleus

Hydrogen atoms, conceptual model C013 / 5606
Hydrogen atoms, conceptual model. Computer artwork representing the structure of hydrogen atoms. Each atom has one proton and one neutron (large spheres) in its nucleus (pink)

Perovskite mineral, molecular model C016 / 5803
Perovskite mineral, molecular model. Perovskite is a mineral form of calcium titanate, with the chemical formula Ca.Ti.O3

Perovskite mineral, molecular model C016 / 5802
Perovskite mineral, molecular model. Perovskite is a mineral form of calcium titanate, with the chemical formula Ca.Ti.O3

Water molecule, artwork C014 / 0007
Water molecule. Computer artwork showing the structure of a molecule of water (chemical formula H2O), consisting of two atoms of hydrogen (grey) bonded to one atom of oxygen (red)

Nano bearing, artwork C013 / 9992
Nano bearing, computer artwork. A bearing allows motion between two or more part. This bearing design is an example of nanotechnology

Benzene molecule, artwork
Benzene molecule, molecular model. Benzene is an aromatic organic compound that consists of a ring of six carbon atoms, each with an attached hydrogen atom

4-Methylimidazole molecule C013 / 9438
4-Methylimidazole molecule. Computer model showing the structure of a molecule of the heterocyclic organic chemical compound 4-Methylimidazole (4-MEI)

4-Methylimidazole molecule C013 / 9436
4-Methylimidazole molecule. Computer model showing the structure of a molecule of the heterocyclic organic chemical compound 4-Methylimidazole (4-MEI)

Cathinone drug molecule C013 / 7787
Cathinone drug molecule. Computer model showing the structure of a molecule of the monoamine alkaloid drug cathinone (C9H11NO)

Cathinone drug molecule C013 / 7786
Cathinone drug molecule. Computer model showing the structure of a molecule of the monoamine alkaloid drug cathinone (C9H11NO)

Bexarotene chemotherapy drug molecule C013 / 7785
Bexarotene chemotherapy drug molecule. Computer model showing the structure of a molecule of the antineoplastic drug bexarotene (C24H28O2)

Bexarotene chemotherapy drug molecule C013 / 7784
Bexarotene chemotherapy drug molecule. Computer model showing the structure of a molecule of the antineoplastic drug bexarotene (C24H28O2)

Nitrogen-fixing molybdenum iron enzyme C013 / 7176
Nitrogen-fixing molybdenum iron enzyme, molecular model showing secondary structure. This protein is a nitrogen fixation enzyme (nitrogenase)

Boyles law of gases, artwork
Boyles law of gases. Computer artwork explaining the gas laws as described by the combined gas law equation: PV=kT, which shows the relationship between the pressure (P), volume (V)

Combined gas law, artwork C013 / 4731
Combined gas law. Computer artwork explaining the gas laws as described by the combined gas law equation: PV=kT, which shows the relationship between the pressure (P), volume (V)

Pressure-temperature gas law, artwork C013 / 4730
Pressure-temperature gas law. Computer artwork explaining the gas laws as described by the combined gas law equation: PV=kT, which shows the relationship between the pressure (P), volume (V)

Pressure-temperature gas law, artwork C013 / 4729
Pressure-temperature gas law. Computer artwork explaining the gas laws as described by the combined gas law equation: PV=kT, which shows the relationship between the pressure (P), volume (V)

Atmospheric pressure explained, artwork C013 / 4712
Atmospheric pressure explained. Computer artwork of a number of small balls in a glass jar, representing the molecules present in a sample of liquid or gas

Dali Museum. Dome. Surrealism. Figueres. Catalonia. Spain

An idealized atom
ATOMIC ENERGY. An idealized atom

Seal of the Atomic Energy Commission of the United States of America
ATOMIC ENERGY COMMISSION. Seal of the Atomic Energy Commission of the United States of America

Atom Smasher, Astounding Stories Scifi Magazine Cover
The Atom Smasher. Travelling through space and time. Date: May 1930

Liners of Time
LINERS OF TIME (John Russell Fearn) The Atom-and-Time Dissembler will transport you whither- -soever you will, beaming you up, down or sideways. Date: 1935

Aurora Borealis at night, Finland, february

Aurora Borealis, over coniferous forest at night, Finland, february

Democritean Universe. 17th-century artwork of the atomistic universe proposed by the Ancient Greek philosopher Democritus (c.460-370 BC). The artwork was published in 1675

Caesium atomic clock, 1956
Caesium atomic clock. Physicists Jack Parry (left) and Louis Essen (right) adjusting their caesium resonator, which they developed in 1955

Caesium atomic clock. In this clock, atoms of vapourised caesium-133 oscillate between two energy levels as they pass back and forth between magnets at each end of the resonator (long cylinder)

Atomic brain. Conceptual computer artwork of a brain surrounded by atomic orbitals. This could represent artificial intelligence or quantum computing

Panspermia: biomolecules in the universe
Panspermia, conceptual computer artwork. The theory of panspermia states that the molecules that form the building blocks of life are found throughout the universe

Early history of the universe, artwork
Early history of the universe. Artwork showing the cooling and expansion of the early universe from its origin in the Big Bang (upper left)

Multiple universes, artwork
Multiple universes. Artwork showing multiple universes forming from black holes following the Big Bang formation of the initial universe at top left

Nanohoops, molecular model
Nanohoops. Molecular model of a structure based on fullerenes, a structural form (allotrope) of carbon. Theoretically, a wide range of molecular shapes can be engineered at the molecular level using

Universal joint, computer model. This mechanical joint design, made entirely from carbon (turquoise) and hydrogen (grey) atoms, is an example of nanotechnology

Twisted nanotube, molecular model
Twisted nanotube. Molecular model of a structure based on fullerenes, a structural form (allotrope) of carbon. Theoretically

Atomic explosion after the detonation of the worlds first atomic bomb. This bomb, code-named Trinity, was part of the Manhattan Project, set up by the US government during the Second World War

Molecular bearing

Matter transportation

Human intelligence. Conceptual artwork representing human intelligence. It has a human brain as the nucleus (centre) of an atom, surrounded by electron orbitals (pink)

Atomic force microscope. Television screen (left) displaying a specimen being analysed by an atomic force microscope (AFM, right)

Sir Ernest Rutherford taking a swim in Dorset
The New Zealand born physicist Sir Ernest Rutherford (1871-1937) taking a swim off the coast of Dorset (1931). In 1903, together with F

Ernest Rutherford

E. Rutherford in a group portrait at McGill Unive
Portrait of the New Zealand born physicist Sir Ernest Rutherford (1871-1937, right) at the McGill University, Canada. In 1903, together with F

The New Zealand born physicist E. Rutheford

The New Zealand born physicist Sir E. Rutherford
The New Zealand born physicist Sir Ernest Rutherford (1871-1937). The photograph was taken to commemorate the Nobel Prize for chemistry which he received in 1908

E. Rutherford at the Road Research Laboratory
The New Zealand born physicist Sir Ernest Rutherford (1871-1937, centre leaning on the bench) visiting the Road Research Laboratory. In 1903, together with F

Ferrocene molecule
Ferrocene, molecular model. The shape of this organometallic compound has led it and related compounds to be known as sandwich compounds

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"Unveiling the Mysteries of the Atom: From Northern Lights to Quantum Leaps" In the ethereal dance of the Northern lights, nature showcases its own version of atomic beauty. Much like these mesmerizing lights, our understanding of atoms has evolved through groundbreaking scientific discoveries. One such milestone occurred in E. Rutherford's Cavendish Laboratory, where he unraveled the atom's structure and introduced us to its nucleus. This pivotal moment paved the way for Niels Bohr's caricatured quantum model, depicting electrons orbiting around a central core. The power within an atom is not limited to theory alone; it manifests itself in nuclear fission artwork that captures both its destructive force and potential energy release. Similarly, Britain's Ariel Atom embodies this dynamism with its sleek design and exhilarating speed. Delving deeper into atomic intricacies reveals Immunoglobulin G antibody molecule F007/9894 - a crucial defender against pathogens within our immune system. Its intricate structure mirrors the complexity hidden within every atom. Just as science progresses, so does technology - exemplified by Ariel Atom 500 and its cutting-edge engineering prowess. It pushes boundaries much like artists who depict atomic structures in captivating artworks or scientists who unveil quantized orbits resembling those found in celestial bodies' paths. Peering into helium atoms' electron structures unveils their unique properties while HIV reverse transcription enzyme sheds light on how viruses manipulate genetic material at an atomic level. Finally, we arrive at 2009 Ariel Atom - embodying innovation and evolution just as our understanding of atoms continues to expand exponentially. From enchanting natural phenomena like Northern lights to pioneering research conducted by brilliant minds like Rutherford and Bohr; from artistic interpretations capturing atomic wonders to technological marvels pushing limits – each hint represents a facet of humanity's ceaseless quest to unravel the enigmatic world of atoms.