Atom Collection (page 3)

Control room
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Rose and Eye
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Crystallography, c19th century

Ernest Rutherford (1871-1937), Nobel prize-winning atomic physicist, c1908
Ernest Rutherford (1871-1937), New Zealand atomic physicist, c1908. Awarded 1908 Nobel prize for chemistry. Is considered by many to have laid the groundwork for the development of modern nuclear

Ernest Rutherford broadcasting during a home visit to New Zealand in 1926. In 1908 Rutherford (1871-1937), New Zealand atomic physicist

Digital illustration of atoms of solid and liquid gas in beakers

Illustration of oxygen atom

Hiroshima
6th August 1955: A view of bomb damaged areas of Hiroshima, ten years after the Atomic bomb was dropped on the city. The dome in the background became known as the Hiroshima Peace Memorial

Oxygen atomic structure, artwork
Oxygen atomic structure. Computer artwork showing the structure of an oxygen atom. Each oxygen atom contains 8 electrons (blue) orbiting the atomic nucleus (centre)

3d 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

Porcelain vase and molten glass bottle from Hiroshima, Japan
ROYAL NAVY/MILITARIA/ICONIC EVENTS: Two astounding relics recovered near Ground Zero at Hiroshima, Japan, by Commander R W Pakeman RN OBE while serving onboard HMS Belfast at the end of WW2

Civil Defence exercise June 1952 Car with sign on boot saying Warning This Vehicle is Carrying Radioactive Material It Is Carried In Containers At Back Of Vehicle Containers Are Safe To Handle For

12-13 years, asian ethnicity, atom, caucasian, childhood, circle, close up, cloud
Face of mixed race girl floating in sky with molecule patterns

ai, ar, artificial, artificial intelligence, atom, augmented reality, beauty, brain
Woman with artificial intelligence brain

Fleet of warships, Bikini target, by G. H. Davis
The original Bikini Atoll target: the fleet of more than 70 warships at anchor in the lagoon awaiting their fate. The fleet included famous American and ex-enemy warships, most of which

Illustration of Rutherford model of the atom, consisting of nucleus and negatively charged electrons

Illustration of atom with nucleus of protons and neurons, based on the Bohr model

Illustration of neutron hitting Uranium-235 nucleus, nucleus becoming unstable and splitting, releasing energy and neutrons (nuclear fission)

Atomic Damage
14th October 1945: Atomic bomb damage in Hiroshima. (Photo by Hulton Archive/Getty Images)

Aspartic molecule
Aspartic acid molecule. Alpha-amino acid nonessential in mammals. Precursor to several amino acids including methionine, threonine, isoleucine and lysine

Serine molecule
Serine, molecular model. Non-essential proteinogenic amino acid. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (blue-green), nitrogen (blue) and oxygen (red)

Teriflunomide multiple sclerosis drug F007 / 0193
Teriflunomide multiple sclerosis drug, molecular model. Atoms are represented as spheres and are colour-coded: hydrogen (white), carbon (grey), oxygen (red), fluorine (dark yellow) and nitrogen (blue)

Atomic structure of gold
Model showing the face-centred cubic structure of atoms in a gold crystal. Gold is an elemental metal. It occurs mainly as nuggets in rocks and alluvial deposits

Ernest Rutherford, caricature
Ernest Rutherford. Caricature of the New Zealand nuclear physicist Ernest Rutherford (1871-1937) with an electron orbiting his head

Beryllium, atomic model. Beryllium has five neutrons (white) and four protons (pink) in its nucleus (centre). The atom also has four electron (blue) orbiting the nucleus

Acetic acid molecule
Acetic acid, molecular model. Acetic acid, also called ethanoic acid, is the component of vinegar that gives it its sour taste and pungent smell

Helium, atomic model
Heium, atomic model. Helium has two neutrons (white) and two protons (pink) in its nucleus (centre). The atom also has two electron (blue) orbiting the nucleus

Boron, atomic model. Boron has six neutrons (white) and five protons (pink) in its nucleus (centre). The atom also has five electron (blue) orbiting the nucleus

Quantum particles. Quantum mechanics is a branch of physics that describes particles in terms of quanta, discrete values rather than smooth changes

Ghrelin hormone molecule. Computer model showing the crystal structure of the human hormone ghrelin. The crystal structure consists of both the secondary structure

Art of hydrogen atom with electron in orbital
Hydrogen atom. Computer artwork of an atom of the element hydrogen. The atom is shown as a nucleus (a proton, pink), and an electron orbiting in a wavy path (light blue)

Atomic Motor Race
Motor Racing with Atom-Powered Vehicles

ai, ar, artificial, artificial intelligence, atom, augmented reality, brain, close up
Man with artificial intelligence brain

Startling Stories - The Giant Atom by Malcolm Jameson. A man holds a woman protectively as they both look fearfully out of a spaceship window, the view ahead shows the sun orbiting planet earth

Splitting the Atom by G. H. Davis
A possible source of unlinited power. Tapping a source of power that may drive all the machinery in the World: Experiments designed to release the forces imprisoned in the atom. Date: 1924

Atoms of which things are made
Sir William Braggs experiments in his opening lecture, concerning the Nature of Things delivered at the Royal Institution. Date: 1924

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

Splitting of the Atom - apparatus used by Dr J D Cockcroft
Dr John D Cockcroft listening for sounds indicating atomic disintegration brought about by the bombardment with high-velocity protons of the lithium nucleus

DALTON, John (1766-1844). British chemist and physicist. Founder of the athomic theory in 1803-05. Oil

The everlasting fuel, atomic power, by G. H. Davis
The everlasting fuel: atomic power replacing the consumption of hundreds of thousands of tons of coal. The probable compact layout of an atom-powered municipal electricity generating station in

The atoms power for peace by G. H. Davis
The atoms power for peace: the shape of things to come. Showing an atomic-driven locomotive, power house and liner, based on an expert forecast. 1945

Crewless aircraft for atomic explosions by G. H. Davis
Crewless aircraft, controlled from parent machines, which will probe the secrets of an atomic bomb explosion by means of television. Date: 1946

Dangers of radioactivity by G. H. Davis
Death rays released by an atomic bomb explosion: the dangers of radioactivity explained in drawings. Date: 1946

Atom bombers view of Bikini Atoll by G. H. Davis
Target for annihilation: an atom bombers view of Bikini Atoll, in the Pacific Ocean, with the fleet of warship victims assembled in the lagoon. Date: 1946

atom, augmented reality, ball, color image, computer graphic, concept, cyberspace
Nature sphere hovering over river in forest

Diagram showing planetary orbits, the sun and the path of a comet, digital illustration

Diagram showing size of stars from white dwarfs to super giants, digital illustration

Molecular model of Formic Acid, digital illustration

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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.