Electron Collection

Bubble chamber photo of sigma particle decay. The sigma lives too briefly to be seen; its presence is deduced from other particles

Particle physics equations

Particle physics experiment, artwork
Particle physics experiment. Artwork of tracks of particles detected following a collision in a particle accelerator. In these experiments

Niels Bohr, caricature
Niels Bohr (1885-1962). Caricature of the Danish physicist Niels Henrik David Bohr, blowing orbiting electrons out of his pipe. Bohr won the Nobel Prize for Physics in 1922

Particle physics experiment, artwork
Particle physics experiment. Artwork of tracks of particles detected following a collision in a particle accelerator. In these experiments

Nuclear Fission Artwork
Nuclear fission. Conceptual computer artwork of an atom being split through nuclear, or atomic, fission (splitting). Electrons (orange) can be seen orbiting the nucleus (centre)

Particle physics equations

Higgs boson, artwork C018 / 0936
Higgs boson. Computer artwork showing a Higgs boson particle, which was formed by the collision of two protons, decaying into a pair of Z bosons, one of which decays to a pair of electrons

Simulium damnosum, Simulian blackfly
Scanning electron microscope image of the head showing the compound eye (x 130). The fly is a vector of a parasite which causes River Blindness. Coloured artifically by computer

Atomic structure, artwork
Atomic structure. Computer artwork of electrons orbiting a central nucleus. This is a classical schematic Bohr model of an atom

Electron structure of helium atom
Electron density of a helium atom. This image represents the quantum cloud of electrons surrounding a helium atom. The colours represent the local electric charge density

Snail teeth

Plasmodium sp. malarial parasite
Scanning electron microscope image of a malarial protozoal parasite. The parasite requires the anopheles mosquito to complete its life cycle

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

Picture No. 11675478
Scanning Electron Micrograph (SEM): Freshwater Diatom, Cyclotella meneghiniana. Date:

Picture No. 11675612
Scanning Electron Micrograph (SEM): Human White and Red Blood Cells. Date:

Picture No. 11675599
Dark Field Light Micrograph: Lancet Liver Fluke. Date:

Picture No. 10876997
Scanning Electron Micrograph (SEM): Human Skin with Hair Follicles Date:

JJ Thomson, British nuclear physicist, 1898. Joseph John Thomson (1856-1940), the discoverer of the electron, with his students at the Cavendish Laboratory, Cambridge

JJ (Joseph John) Thomson (1856-1940) British Nuclear physicist, discovered electron, here with his research students at the Cavendish Laboratory, Cambridge, in 1898

Picture No. 11675582
Scanning Electron micrograph (SEM): Lily Pollen grains. Date:

Picture No. 11675585
Scanning Electron micrograph (SEM)showing stomata on a Yew Leaf. Date:

Picture No. 10873704
Sleeping Sickness Parasite in red blood cells (Trypanosoma sp. ) Date:

Acanthoica acanthifera, coccosphere
Scanning electron microscope (SEM) image of a coccosphere, collected in the North Atlantic (x 25, 000 on negative). Artificially coloured by computer

Scyliorhinus canicula, dogfish
Scanning electron microscope (SEM) image of the scales of a dogfish (x 40)

Particle tracks on galaxies
Particle tracks and cosmology. Computer illustration of subatomic particle tracks (white spirals) seen with galaxies behind them

Aspergillus
An SEM image of aspergillus in spore production (x 815 on a standard 9 cm wide print). The moulds are common in the northern hemisphere and some cause disease in humans and animals

Electricity machine by Pixii
An early form of an alternating current electrical generator built by Pixii in 1832

Picture No. 11675628
Scanning Electron Micrograph (SEM): Stomata of Yew Leaf. Date:

Atomic structure, computer artwork. Schematic representation of the structure of the atom. At the centre of the model is the nucleus, made up of a tightly packed cluster of protons and neutrons

J J Thomson and other Cavendish Laboratory research students
3586077 J J Thomson and other Cavendish Laboratory research students; (add.info.: Photograph of J. J. Thompson (1856-1940) and other Cavendish Laboratory research students

Salvinia Effect of Salvinia natans
Scanning electron micrograph of leaf detail of Salvinia natans, a floating fern type plant which has superhydrophobic trichomes or hairs on the upper surface of its leaves

Baird Electron Scanner System of Television, showing the Electron Scanner when used for the televising of talking films. This can be employed for a definition of 100-500 lines

1956 Fairthorpe Electron at Brands Hatch. Creator: Unknown
1956 Fairthorpe Electron at Brands Hatch

JJ Thomson, British physicist, c1896-c1915
JJ Thomson, British physicist, 1896-1916. Joseph John Thomson (1856-1940) discovered the electron and was a pioneer of nuclear physics

Sir JJ Thomson, British physicist, 1932 (1956). In 1896 Thomson (1856-1940), began experiments on cathode rays, proving that they are particles with a negative charge and much smaller than an atom

Robert Andrews Millikan, American physicist, 20th century. Millikan (1868-1953) was awarded the Nobel Prize for Physics in 1923 for his determination of the charge of the electron

Discharge in Geissler tubes containing rarefied gases, 1887
Discharge in Geissler tubes containing rarefied gases. Investigations of these phenomena led to the discovery of cathode rays, x-rays and electrons. From A. Ganot Natural Philosophy. (London, 1887)

JJ Thomson, British physicist, at work in the Cavendish Laboratory, Cambridge. Joseph John Thomson (1856-1940) discovered the electron and was a pioneer of nuclear physics

JJ Thomson, British physicist, c1922. Joseph John Thomson (1856-1940) discovered the electron and was a pioneer of nuclear physics

Picture No. 11014634
Common Frog - mid stage of tadpole development Scanning Electron Micrograph (SEM): Magnification x 85 (if print A4 size: 29.7 cm wide) - Gills are resorbed and jaws better developed

Picture No. 11014629
Caddis Fly Scanning Electron Micrograph (SEM): Magnification x 20 (if print A4 size: 29.7 cm wide) - Caddis flies spend most of their lives as aquatic larvae in ponds and streams

Picture No. 11014630
Cheese Mite Scanning Electron Micrograph (SEM): Magnification x 350 (if print A4 size: 29.7 cm wide) (Tyrolichus casei) Date:

Picture No. 11014628
Caenorhabditis elegans Scanning Electron Micrograph (SEM): Magnification x 1750 (if print A4 size: 29.7 cm wide) - This tiny free living nematode worm is extensively used in medical

Picture No. 11014624
Escherishia Coli Bacteria / E. Coli - affected by antibiotic Scanning Electron Micrograph (SEM): Magnification x25, 000 (if print A4 size)

Picture No. 11014620
Mosquito Larvae Scanning Electron Micrograph (SEM): Magnification x40 (if print A4 size: 29.7 cm wide) - The malarial mosquito larvae live in pools and puddles; almost any standing water will do

Picture No. 11014623
Black Garden Ant Scanning Electron Micrograph (SEM): Magnification x120 (if print A4 size: 29.7 cm wide) (Lasius niger) Date:

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"The Electron: Unveiling the Mysteries of Particle Physics and Beyond" In the vast realm of particle physics, the electron stands as a fundamental building block that has captivated scientists for decades. As we delve into its enigmatic nature, we are greeted with awe-inspiring visuals that shed light on its intricate properties. One such image is the mesmerizing bubble chamber photo capturing the decay of a sigma particle. This snapshot reveals the hidden dance between particles, unraveling their secrets within complex equations adorning scientific papers. Artwork depicting particle physics experiments further immerses us in this captivating world. It serves as a visual testament to human curiosity and our relentless pursuit of knowledge. Among these illustrations, Niels Bohr's caricature reminds us of his groundbreaking contributions to atomic theory. Nuclear fission artwork showcases humanity's quest for harnessing immense energy from splitting atoms—an achievement that forever altered our understanding of power generation and weaponry. The Higgs boson, often referred to as "the God particle, " takes center stage in another remarkable artwork. Its discovery revolutionized our comprehension of mass and solidified our understanding of how particles acquire their weight. Beyond subatomic realms lie unexpected connections—like Simulium damnosum, also known as Simulian blackfly. These tiny creatures possess an intriguing link to electrons through their unique ability to transmit diseases like river blindness—a reminder that science encompasses all facets of life. Delving deeper into atomic structures brings forth stunning artwork showcasing intricate arrangements resembling delicate lacework or snail teeth—a testament to nature's elegance even at microscopic scales. As we revisit those familiar equations describing electron structure within helium atoms, we marvel at how these minuscule entities shape everything around us—the foundation upon which matter is built. The electron remains an ever-present force shaping our world—from powering electronic devices to enabling chemical reactions essential for life itself. Its significance cannot be overstated; it embodies both simplicity and complexity, a paradox that continues to intrigue and inspire scientists worldwide.