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Microscope Collection

"Unveiling the Unseen: Exploring the Microscopic World" Step into a realm of hidden wonders

Background imageMicroscope Collection: False-coloured SEM (Scanning Electron Micrograph) of a Tardigrade (Tardigrada) amongst moss

False-coloured SEM (Scanning Electron Micrograph) of a Tardigrade (Tardigrada) amongst moss, from Peak District National Park, Derbyshire, UK. This tardigrade is approximately 0.1 millimetres long

Background imageMicroscope Collection: Rosalind Franklin

Rosalind Franklin
ROSALIND FRANKLIN Pioneer Molecular Biologist she made important contributions to understanding the structure of DNA

Background imageMicroscope Collection: Liver Fluke, microscope slide preparation of the whole animal

Liver Fluke, microscope slide preparation of the whole animal
PM-10632 Liver Fluke, microscope slide preparation of the whole animal. Fasciola hepatica Pat Morris Please note that prints are for personal display purposes only

Background imageMicroscope Collection: RAMON Y CAJAL, Santiago (1852-1934). Spanish

RAMON Y CAJAL, Santiago (1852-1934). Spanish

Background imageMicroscope Collection: RAMON Y CAJAL, Santiago (1852-1934). Spanish

RAMON Y CAJAL, Santiago (1852-1934). Spanish doctor and histologist, Nobel Prize in 1906. Portrait in his laboratory

Background imageMicroscope Collection: Fleming / Photo / Microscope

Fleming / Photo / Microscope
SIR ALEXANDER FLEMING - Scottish bacteriologist at his desk with his microscope

Background imageMicroscope Collection: Fat cells, TEM

Fat cells, TEM
Fat cells. Coloured transmission electron micrograph (TEM) of a section through fat (adipose) tissue, consisting of fat-storing cells (adipocytes, green) supported by connective tissue

Background imageMicroscope Collection: Norovirus particles, TEM

Norovirus particles, TEM
Norovirus particles. Coloured transmission electron micrograph (TEM) of norovirus particles. Norovirus is a genus of RNA (ribonucleic acid)

Background imageMicroscope Collection: E. coli bacterium, TEM

E. coli bacterium, TEM
E. coli bacterium, coloured transmission electron micrograph (TEM). E. coli are Gram-negative rod-shaped bacteria that are part of the normal flora of the human gut

Background imageMicroscope Collection: Under the Microscope / C18

Under the Microscope / C18
Animacules : microscopic creatures as seen under a microscope; the last two rows are human sperm

Background imageMicroscope Collection: Snail teeth

Snail teeth

Background imageMicroscope Collection: Lubbock / John / Graphic 84

Lubbock / John / Graphic 84
SIR JOHN LUBBOCK 1st BARON AVEBURY Liberal MP and writer of popular science books

Background imageMicroscope Collection: Plasmodium sp. malarial parasite

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

Background imageMicroscope Collection: Plasma cells, TEM

Plasma cells, TEM
Plasma cells. Coloured transmission electron micrograph (TEM) of plasma cells. Plasma cells are mature B lymphocytes (white blood cells) that produce and secrete antibodies during an immune response

Background imageMicroscope Collection: Picture No. 10876997

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

Background imageMicroscope Collection: Illustration of eye seeing through microscope

Illustration of eye seeing through microscope

Background imageMicroscope Collection: Picture No. 11014612

Picture No. 11014612
Quinidine Rippled Quinidine is a chemical precurser to the antimalarial drug quinine - The image was produced using a polarising microscope and post processed in Adobe Photoshop Date:

Background imageMicroscope Collection: Picture No. 10873704

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

Background imageMicroscope Collection: Nils and Aage Bohr in laboratory C016 / 8375

Nils and Aage Bohr in laboratory C016 / 8375
Physicists in a laboratory. Physicists Nils and Aage Bohr being shown an early video-microscope used to study nuclear tracks on photographic emulsions

Background imageMicroscope Collection: Scyliorhinus canicula, dogfish

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

Background imageMicroscope Collection: Dividing cells

Dividing cells. Computer artwork of a spiral of cells during mitosis (nuclear division). During mitosis two daughter nuclei are formed from one parent nucleus

Background imageMicroscope Collection: Nikolai Dubinin, Russian geneticist

Nikolai Dubinin, Russian geneticist
Nikolai Petrovich Dubinin (1907-1998), Russian geneticist, examining microscope slides in a laboratory. Dubinin was one of the founding members of the Cytology

Background imageMicroscope Collection: Lung tissue, TEM

Lung tissue, TEM
Lung tissue, coloured transmission electron micrograph (TEM). A single alveolus is at center. At top right is a pulmonary capillary containing a red blood cell (red) and a platelet (yellow)

Background imageMicroscope Collection: Intestinal microvilli, TEM

Intestinal microvilli, TEM
Intestinal microvilli, coloured transmission electron micrograph (TEM). The microvilli are finger-like projections (seen here in circular cross-section)

Background imageMicroscope Collection: Influenza virus particles, TEM

Influenza virus particles, TEM
Influenza virus particles, coloured transmission electron micrograph (TEM). This virus is the cause of the respiratory disease influenza (flu) in humans and other animals

Background imageMicroscope Collection: Hepatitis C viruses, TEM

Hepatitis C viruses, TEM
Hepatitis C viruses. Coloured transmission electron micrograph (TEM) of hepatitis C virus particles (green) infecting cultured liver cells (purple)

Background imageMicroscope Collection: E. coli bacterium, TEM

E. coli bacterium, TEM
E. coli bacterium. Coloured transmission electron micrograph (TEM) of an Escherichia coli bacterium in the early stages of binary fission, the process by which the bacterium divides

Background imageMicroscope Collection: investigating rinderpest at Kimberley, South Africa: drawing, 1897

investigating rinderpest at Kimberley, South Africa: drawing, 1897
ROBERT KOCH (1843-1910) investigating rinderpest at Kimberley, South Africa: drawing, 1897

Background imageMicroscope Collection: Rosenhain optical microscope

Rosenhain optical microscope. The viewing lens (eyepiece, upper right), focusing wheel (lower right) and objective lens (centre) are seen

Background imageMicroscope Collection: SILENT STILL: LABORATORIES. Warner Baxter as Dr. Samuel Mudd, The Prisoner of Shark Island, 1936

SILENT STILL: LABORATORIES. Warner Baxter as Dr. Samuel Mudd, The Prisoner of Shark Island, 1936

Background imageMicroscope Collection: Manufacture of circuit boards

Manufacture of circuit boards
A complicated multi-component electronic device for manufacturing circuit boards. It consists of a number of miniature soldering irons to attach the electrical components and a magnifying camera

Background imageMicroscope Collection: Microscope image of the Pasamonte eucrite

Microscope image of the Pasamonte eucrite
Microscopic image of the Pasamonte eucrite showing a basaltic texture. Field of view is 2.5mm across

Background imageMicroscope Collection: Microscope icon, outline style

Microscope icon, outline style Microscope icon in outline style isolated vector illustration

Background imageMicroscope Collection: Roquefort cheese mold (Penicillium roqueforti) spores under the microscope

Roquefort cheese mold (Penicillium roqueforti) spores under the microscope Magnification is about x985 when printed at 10 centimeters wide

Background imageMicroscope Collection: Focus stacked, inverted image of Diatoms on a microscope slide

Focus stacked, inverted image of Diatoms on a microscope slide. Diatoms are single-celled algae which produce approximately 25% of the oxygen we breathe as well as being responsible for approximately



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"Unveiling the Unseen: Exploring the Microscopic World" Step into a realm of hidden wonders, where scientists like Rosalind Franklin and Santiago Ramon y Cajal have unraveled the mysteries through their microscopic lens. From Liver Fluke to Norovirus particles, these pioneers have paved the way for groundbreaking discoveries. Witness the intricate beauty of Snail teeth and Fat cells as they come alive under the microscope's gaze. Marvel at Lubbock's Graphic 84, a visual masterpiece capturing the essence of this microcosmic universe. Delve deeper into this microscopic world and encounter Plasmodium sp. , a malarial parasite that has plagued humanity for centuries. Explore E. Coli bacterium in all its glory, revealing both its potential dangers and scientific significance. Through microscope slide preparation techniques, we gain insight into complex organisms like never before. Discover how Fleming used his photographic skills to document crucial moments in microbiology history. The microscope acts as our window into an unseen dimension - it allows us to explore realms beyond our naked eye's reach, and is through this powerful tool that we continue to unravel nature's secrets one magnified image at a time. So join us on this journey "Under the Microscope, " where every slide holds a story waiting to be told – stories that shape our understanding of life itself.

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