Atom Collection (page 4)

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

Molecular model of Hydrogen Sulphide, digital illustration

Molecular model of Ammonia, digital illustration

Carbon atom, digital illustration

Flow chart showing how a nuclear power station produces electricity

Illustration of zinc atoms in electrode dissolving in acid, losing electrons to form cations

Illustration of copper ion reduced to copper atoms by electrons on battery, on surface of brass key cathode

Illustration showing relative atomic mass of nucleus of boron-11 containing five protons and six neutrons

Illustration of copper pipe anode, showing how positive terminal on battery draws electrons from anode oxidising copper atoms to copper cations

Electrons spinning around nucleus of an atom

Digital illustration of the first atomic clock, constructed in 1949

Digital illustration of water shown as H2O made up of 2 hydrogen atoms and 1 oxygen atom

Digital illustration of showing shape and volume of solid gas, and liquid gas taking shape of conica

Illustration of electron transfer from sodium atom to chlorine atom, transformation from sodium ion

Illustration of how atoms emit light, based on Bohr model

Illustration of Bohr model of the atom

Illustration of Thomsons Plum Pudding model of the atom, with negatively charged electrons dotted

Illustration of particles in atmosphere

Illustration of exploding particles

Illustration of nucleus of Hydrogen-2 and nucleus of Hydrogen-3 fusing and forming nucleus of Helium-4, expelling a neutron (nuclear fusion)

Illustration of split atoms and neutrons

Illustration of atoms

Illustration of hydrogen atom and proton orbited by single electron

Digital illustration of blue atom on white background

Series of digital illustrations showing states of matter with molecules are packed tightly together in a solid, liquid, and gas molecules

Digital illustration of atoms in aluminium molecule

Illustration of how a solar-powered calculator works, photon giving energy to an electron in a silicon atom, electron then flies out and joins with others to make electric current

The final stages of the life of a massive star, which will go supernova

Buckyballs floating in interstellar space near a region of current star-formation
This artists conception shows buckyballs floating in interstellar space, near a region of current star-formation. Buckyballs are the largest molecule ever discovered floating between the stars

Artists concept showing carbon balls ejecting out from a dying white star in a planetary
Artists concept showing carbon balls coming out from the type of object where they were discovered, a dying star and the material it sheds, known as a planetary nebula

Artists concept of a quest to find new forms of energy
No matter how advanced mankind becomes, the quest to find new forms of energy is always given a priority

An android learns to use the power of the atom
When mankind learned how to use the power of the atom, science fiction became science fact. As we progress into the 21st century, who knows what other ways this discovery will be used

Controlling power and energy through science and technology

The power to store infinite knowledge

Mankinds ability to harness atomic power and the atom

Coneptual image, connections, network

ATOMIC ENERGY. An idealized atom

BOYLE: SCEPTICAL CHYMIST. Title-page of the 1661 London edition of Robert Boyle s
BOYLE: SCEPTICAL CHYMIST. Title-page of the 1661 London edition of Robert Boyles The Sceptical Chymist dealing with Boyles concept of matter as composed of atoms and clusters of atoms in motion

Atomic Cooling Tower
16th October 1956: Water cascading down at the bottom of the giant cooling towers at the worlds first full-scale atomic power station at Calder Hall, Cumberland. (Photo by L)

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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.