Atom Collection (page 34)

"Unveiling the Mysteries of the Atom: From Northern Lights to Quantum Leaps" In the ethereal dance of the Northern lights

Pepsin molecule
Pepsin enzyme. Computer graphic of the protein- digesting enzyme pepsin. It is a protease enzyme that is secreted as part of gastric juice into the stomach in an inactive form known as pepsinogen

Nuclear fission, computer artwork

Atom Collection: Fibroblast growth factor receptor 2

Fibroblast growth factor receptor 2 (FGFR2). Molecular models of the secondary structure (top) and the tertiary structure (bottom) of FGFR2

Atom Collection: Atomic structure, conceptual artwork

Atomic structure, conceptual artwork
Atomic structure. Conceptual computer artwork of electron orbit paths as rings around the central nuclei (dark clusters) of atoms. This is a classical schematic Bohr model of atoms

Atom Collection: DNA nanotechnology, artwork

DNA nanotechnology, artwork
DNA nanotechnology. Conceptual computer artwork of DNA nanotechnology, showing a carbon nanotube (transparent) and a molecule of DNA (deoxyribonucleic acid, centre)

Atom Collection: Enzyme catalysing DNA recombination

Enzyme catalysing DNA recombination. Computer model of the enzyme flippase recombinase (FLP recombinase, atoms represented as tubes)

Atom Collection: Nanotube technology, artwork

Nanotube technology, artwork
Nanotube technology. Conceptual computer artwork of cylindrical fullerene molecules (carbon nanotubes). The carbon atoms are arranged in a structure consisting of interlinking hexagonal rings

Atom Collection: Methylene blue, molecular model

Methylene blue, molecular model. Atoms are represented by spheres (carbon: light blue, nitrogen: dark blue, sulphur: yellow, hydrogen: mustard) with the bonds between them as bars

Atom Collection: Atomic energy, conceptual artwork

Atomic energy, conceptual artwork
Atomic energy. Conceptual computer artwork of a reaction occuring at the atomic level, showing a release of energy. Electron orbit paths are seen as rings around the central nuclei (dark clusters)

Molecule, artwork
Molecule, computer artwork. In molecular models such as this, atoms are shown as spheres and the bonds between them as rods

Atom Collection: Nuclear fusion reactions

Nuclear fusion reactions, computer artwork. These three reactions are being investigated for use in fusion power. Protons are red and neutrons blue

Atom Collection: DNA molecule, conceptual artwork

DNA molecule, conceptual artwork
DNA, conceptual computer artwork. View up the centre of a molecular model of deoxyribonucleic acid (DNA). DNA is composed of two strands twisted into a double helix

Atom Collection: DNA molecule, ceonceptual artwork

DNA molecule, ceonceptual artwork
DNA, conceptual computer artwork. Molecular model of deoxyribonucleic acid (DNA), composed of two strands twisted into a double helix

Atom Collection: Cholesterol, molecular model

Cholesterol, molecular model
Cholesterol. Molecular model of the fatty and waxy alcohol cholesterol. Atoms are represented by spheres and are colour-coded: carbon (black), hydrogen (grey), oxygen (red)

Ariel Atom 500 Britain

Atom Collection: Dr Ernest Walton with Cockcroft-Walton apparatus

Dr Ernest Walton with Cockcroft-Walton apparatus
Dr Ernest Ts Walton in the cabinet (marked E) into which the high-velocity protons emerge and strike the target of lithium

Atom Collection: Dr J D Cockcroft at work in Cavendish Laboratory

Dr J D Cockcroft at work in Cavendish Laboratory
Dr J D Cockcroft at work in the Cavendish Laboratory, at Cambridge University, adjusting a vacuum-creating pump. Physicists John D Cockcroft

Observing Sea Depths
Observation of the Sea-Bed from Transparent-Bottomed Boats, Using Atom-Ray Illumination

James Franck
JAMES FRANCK - American-German physicist (worked on energy and US atom bomb in WW2)

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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.