Atomic Collection (page 10)

Atomic burst over Nagasaki, 1945
Atomic burst over Nagasaki, coloured image. On 9th August 1945, during World War II, a US bomber dropped the Fat Man atomic bomb over Nagasaki, Japan

Operation Tumbler-Snapper atom bomb, 1952
Operation Tumbler-Snapper atom bomb test. US marines preparing to advance towards their objective following an atomic explosion at the Nevada Test Site, USA, on 1st May 1952

Fusion research, levitated diopole device
Nuclear fusion research. Levitated dipole experiment (LDX) device (cryostat) being constructed at the MIT Plasma Science and Fusion Center, Columbia University, USA

Fallout shelter supplies, USA, Cold War
Fallout shelter supplies at an exhibit in the USA during the Cold War. In the late 1950s and early 1960s, the Cold War between the USA and the USSR was reaching its peak

Cold War medical training, 1958
Cold War medical training. US Navy nurses observing a demonstration of radiation survey instruments as part of the nuclear nursing course at the National Naval Medical Center, Bethesda, Maryland

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)

Soviet engineers and physicists, 1954
Soviet engineers and physicists. From left to right: Vasily Mishin (1917-2001), rocket engineer; Mstislav Keldysh (1911-1978), mathematician; Igor Kurchatov (1903-1960)

Anders Angstrom, Swedish physicist
Anders Angstrom (1814-1874), Swedish physicist. Angstrom founded the science of spectroscopy, and the unit of atomic length, the angstrom, is named after him

Glibenclamide diabetes drug molecule
Glibenclamide, molecular model. This drug is used to treat type 2 diabetes. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red), nitrogen (blue)

Cefuroxime antibiotic molecule
Cefuroxime antibiotic, molecular model. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (blue), oxygen (red) and sulphur (yellow)

RDX explosive molecule
RDX, molecular model. This explosive is also known as T4 and cyclonite. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red) and nitrogen (blue)

Donepezil Alzheimers drug, molecule
Donepezil Alzheimers drug, molecular model. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red) and nitrogen (blue)

Plutonium crystal structure, molecular model

Lisinopril ACE inhibitor molecule
Lisinopril, molecular model. This is an ACE inhibitor drug used to treat hypertension (high blood pressure) and heart disease

Clonidine drug molecule

Theobromine molecule
Theobromine, molecular model. This bitter alkaloid is found in cocoa bean. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (blue) and oxygen (red)

Paraquat herbicide molecule
Paraquat, molecular model. This is a non-selective herbicide. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (blue) and chlorine ions (green)

Imidacloprid insecticide molecule
Imidacloprid insecticide, molecular model. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (blue), oxygen (red) and chlorine (green)

Diclofenac drug molecule
Diclofenac. Molecular model of the non-steroidal anti-inflammatory (NSAID) drug diclofenac. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (blue)

Vardenafil erectile dysfunction drug
Vardenafil, molecular model. This erectile dysfunction drug is marketed as Levitra. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red)

VX478 AIDS drug molecule
VX478 AIDS drug, molecular model. This is a protease inhibitor drug. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (blue)

Japanese encephalitis virus protein. Molecular model of domain III, the main antigenic domain, of the Japanese encephalitis virus envelope protein

Tramadol analgesic molecule
Tramadol, molecular model. This is a synthetic opioid analgesic (painkiller) drug. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Doxazosin drug molecule
Doxazosin, molecular model. This alpha-blocker drug is used to treat hypertension (high blood pressure). Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Salbutamol asthma drug molecule
Salbutamol asthma drug, molecular model. This is a bronchodilator drug marketed as ventolin. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Cyclobenzaprine muscle relaxant molecule
Cyclobenzaprine muscle relaxant, molecular model. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white) and nitrogen (blue)

Carisoprodol muscle relaxant molecule
Carisoprodol muscle relaxant, molecular model. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red) and nitrogen (blue)

Escitalopram antidepressant drug molecule
Escitalopram, molecular model. This antidepressant drug is a selective serotonin reuptake inhibitor (SSRI). Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Alprazolam sedative drug molecule
Alprazolam, molecular model. This sedative drug is marketed as Xanax. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (blue) and chlorine (green)

Salvinorin A drug molecule
Salvinorin A drug, molecular model. This is the most potent naturally-occurring psychoactive compound known. It is found in the leaves of Diviners sage (Salvia divinorum)

Premarin HRT drug molecule
Premarin, molecular model. This drug contains conjugated equine oestrogens (female sex hormone) collected from pregnant mares urine. It is used to relieve the symptoms of menopause

Malathion pesticide molecule
Malathion, molecular model. This is an organophosphate pesticide. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), oxygen (red)

Indinavir AIDS drug molecule
Indinavir AIDS drug, molecular model. This is a protease inhibitor marketed as Crixivan. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Muscarine molecule
Muscarine, molecular model. This toxic compound is present in a number of mushrooms. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Pravastatin cholesterol drug molecule
Pravastatin, molecular model. This is a cholesterol-lowering drug of the statin class. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white) and oxygen (red)

Saxitoxin molecule
Saxitoxin, molecular model. This neurotoxin is produced by some marine dinoflagellates and cyanobacteria. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Verapamil drug molecule
Verapamil, molecular model. This is a calcium channel blocker used to treat hypertension (high blood pressure) and angina

Coriamyrtin toxin molecule
Coriamyrtin, molecular model. This toxin is found in high concentrations in the berries of the plant Coriaria myrtifolia. Atoms are represented as spheres and rods and are colour-coded

Zolpidem sedative drug molecule
Zolpidem, molecular model. This sedative drug is used for the short-term treatment of insomnia. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Brevetoxin molecule
Brevetoxin, molecular model. This neurotoxin is produced by the marine protozoan (Karenia brevis). Atoms are represented as spheres and are colour-coded: carbon (grey)

Zinc crystal structure, molecular model

Allopurinol gout drug molecule
Allopurinol, molecular model. This drug reduces the level of uric acid in the body. The accumulation of uric acid crystals in the joints is known as gout

Nitroglycerin molecule
Nitroglycerin, molecular model. This chemical is used as a heart drug and an explosive. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white)

Scopolamine toxin molecule
Scopolamine, molecular model. This alkaloid toxin is fond in plants of the nightshade (Solanaceaea) family. In very small doses it is used to treat motion sickness

Streptonigrin antitumour drug molecule
Streptonigrin, molecular model. This antibiotic also has antitumour action. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white), nitrogen (blue) and oxygen (red)

Prozac antidepressant molecule
Prozac. Molecular model of the antidepressant fluoxetine, marketed as Prozac. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white) oxygen (red)

Dyazide diuretic drug molecule
Dyazide, molecular model. This is a diuretic drug used to treat hypertension (high blood pressure) and oedema (water retention)

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"Exploring the Atomic Realm: From Northern Lights to Particle Physics Experiments" Step into a world where science and art collide, revealing the wonders of the atomic realm. Just like the mesmerizing dance of the Northern Lights, atomic phenomena continue to captivate our imagination. In 1835, Dalton's Table Symbols laid the foundation for understanding matter at its most fundamental level. This groundbreaking work paved the way for countless discoveries in particle physics experiments, pushing boundaries and unraveling mysteries that were once unimaginable. As we delve deeper into fusion research with devices like tokamaks, we strive to harness the immense power locked within atoms. These scientific endeavors are not just confined to laboratories; they inspire awe-inspiring artworks that depict both beauty and complexity. From nuclear fission artwork depicting energy unleashed to HMS Conqueror's triumphant return after sinking an Argentine battleship during conflict - these moments remind us of how atoms can shape history. The quantized orbits of planets around their suns mirror electron orbits around nuclei – a testament to nature's harmonious patterns on both macroscopic and microscopic scales, and is through this delicate balance that life thrives in our universe. Even seemingly ordinary objects hold atomic secrets. Take an antidepressant molecule like Amitriptyline or an amino acid molecule such as Creatine – they represent breakthroughs in medicine and sports performance respectively, showcasing how atoms impact every aspect of our lives. Yet it is crucial not to overlook darker chapters in history. The haunting fallout from a 1957 nuclear test serves as a stark reminder of humanity's responsibility when dealing with atomic power. And who could forget about innovation? An "Atomic Motorbike" pushes conventional limits by infusing cutting-edge technology with sleek design – a symbol of progress fueled by human ingenuity. So let us embark on this journey through time and space, exploring all facets of what it means to be "atomic.