Microscope Collection (page 7)

Picture No. 11014632
Diatom Scanning Electron Micrograph (SEM): Magnification x 4370 (if print A4 size: 29.7 cm wide) - The diatoms are single celled algae

Picture No. 11014627
Spectacle Moth - eggs Scanning Electron Micrograph (SEM): Magnification x 35 (if print A4 size: 29.7 cm wide) (Abrostola tripartita) Date:

Picture No. 11014626
Bumblebee Scanning Electron Micrograph (SEM): Magnification x30 (if print A4 size: 29.7 cm wide) (Bombus terrestris) Date:

Picture No. 11014625
Bedbug Scanning Electron Micrograph (SEM): Magnification x120 (if print A4 size: 29.7 cm wide) (Cimex lectularius) Date:

Picture No. 11014621
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. 11014619
Shelled Amoeba Scanning Electron Micrograph (SEM)): Magnification x5130 (if print A4 size: 29.7 cm wide) - Testate amoebae are found in damp soil, leaf litter and pools

Picture No. 11014614
Quinidine Liquified 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:

Picture No. 11014613
Quinidine Swirl 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:

Picture No. 11014611
Primrose Pollen Scanning Electron Micrograph (SEM): Magnification 2 x28, 000 (if print A4 size: 29.7 cm wide) - Primroses appear in early spring and are usually yellow

Picture No. 11014610
Primrose Pollen Scanning Electron Micrograph (SEM): Magnification x12, 000 (if print A4 size: 29.7 cm wide) - Primroses appear in early spring and are usually yellow. They are insect pollinated Date:

Picture No. 11014609
Hazel Pollen Scanning Electron Micrograph (SEM): Magnification x12, 000 b1 (if print A4 size: 29.7 cm wide) - Hazel pollen is very small and is carried by the wind to stigma of other trees

Picture No. 11014608
Grass Pollen Scanning Electron Micrograph (SEM): Magnification 2 x4560 (if print A4 size: 29.7 cm wide) - Gypsophyla is a small pink or white flower; insect pollinated Date:

Picture No. 11014605
Grass Pollen Scanning Electron Micrograph (SEM): Magnification 2 x9410 (if print A4 size: 29.7 cm wide) - Grass pollen is wind pollinated

Picture No. 11014602
Daffodil Pollen Scanning Electron Micrograph (SEM): Magnification x16900 (if print A4 size: 29.7 cm wide) - Daffodils are popular and common springtime flowers. Insect pollinated Date:

Picture No. 11014603
Daisy Pollen Scanning Electron Micrograph (SEM): Magnification 2 x9k (if print A4 size: 29.7 cm wide) - Daisies are small insect pollinated flowers; common in lawns Date:

Picture No. 11014600
Crocus Pollen Scanning Electron Micrograph (SEM): Magnification x4000 (if print A4 size: 29.7 cm wide) - Crocus is a common spring flower, insect pollinated Date:

Picture No. 11014598
Celandine Pollen Scanning Electron Micrograph (SEM): Magnification x17, 600 (if print A4 size: 29.7 cm wide) - is a yellow springtime flower. Insect pollinated, it is toxic to humans Date:

Picture No. 11014597
Celandine Pollen Scanning Electron Micrograph (SEM): Magnification x4900 (if print A4 size: 29.7 cm wide) - is a yellow springtime flower. Insect pollinated, it is toxic to humans. Date:

Picture No. 11014595
Bumblebee Scanning Electron Micrograph (SEM): Magnification x40 (if print A4 size: 29.7 cm wide) (Bombus terrestris) Date:

Picture No. 10873599
Human Crab Louse (Phthirus pubis) Date:

Picture No. 10877002
Scanning Electron Micrograph (SEM): Cat hairs Date:

Picture No. 10876987
Scanning Electron Micrograph (SEM): Human skin section across vein showing red blood cells Date:

Picture No. 10876990
Scanning Electron Micrograph (SEM): Human sperm Date:

HIV infected macrophage, SEM C018 / 8598
HIV infected macrophage. Coloured ion-abrasion scanning electron micrograph (IA-SEM) of a macrophage white blood cell infected with human immunodeficiency virus (HIV, red)

Macrophage and lymphocytes, TEM
Macrophage and lymphocytes, transmission electron micrograph (TEM). Macrophage surrounded by lymphocytes in a lymph node. This view includes many intercellular contacts

Influenza virus particles, TEM
Influenza virus particles, coloured transmission electron micrograph (TEM). The virus consists of ribonucleic acid (RNA), surrounded by a nucleocapsid (blue) and a lipid envelope (green)

William Hyde Wollaston, British chemist
William Hyde Wollaston (1766-1828), British chemist and physicist. Wollaston gave up his medical practice in 1800 and earned a living from the sale of platinum

Clay, SEM C015 / 5767
Clay. Scanning electron microscope of a sample of clay. Clay particles are the smallest particle of the different soil types, giving the soil a smooth feel when rubbed between the fingers

Golgi apparatus, TEM C017 / 8234
Golgi apparatus. Transmission electron micrograph (TEM) of Golgi apparatus from a Chlamydomonas sp. alga. Golgi are membrane-bound organelles that modify and package proteins

Skeletal muscle, TEM C016 / 5369
Skeletal muscle. Transmission electron micrograph (TEM) of a cross section through human skeletal (striated) muscle. Blocks of muscle (lighter grey) are surrounded by connective tissue (black)

FE scanning electron microscopy C016 / 3821
FE scanning electron microscopy. Researcher operating a field-emission scanning electron microscope (FE-SEM). This is a F JEOL 6320F FE-SEM

Scanning transmission electron microscopy C016 / 3815
Scanning transmission electron microscopy. Researcher using a scanning transmission electron microscope (STEM) to analyse the structure of solid-state materials

Tyrophagus casei, cheese mite
Scanning electron microscope image of a cheese mite (x 170). These creatures are generally considered to be a pest, however they are added to Altenburger cheese to give it flavour

Ceratodon purpureus, ceratodon moss spore capsule
Scanning electron microscope (SEM) image of a ceratodon moss spore capsule (x 650 on a standard 9 cm wide print)

Schistosoma nasale, bloodfluke
Scanning electron microscope image of a parasitic bloodfluke or flatworm. Coloured artifically by computer

Dermatophagoides pteronyssius, dust mite
Scanning electron microscope image showing a dust mite (x 250 on standard 9cm wide print). This image has been artificially coloured by a computer

Euglena gracilis protists. Light micrograph of a group of Euglena gracilis protists. These organisms possess a unique combination of plant and animal characters. Like the algae, E

Lung alveoli. Light micrograph of a section through normal human lung tissue showing alveoli. These are tiny air sacs where most of the diffusion of gases to and from the blood occurs

Cardiac muscle, TEM
Cardiac muscle. Coloured transmission electron micrograph (TEM) of cardiac muscle fibrils (orange)from a healthy heart. Mitochondria (pink) supply the muscle cells with energy

Cardiac muscle and capillary, TEM
Cardiac muscle. Coloured transmission electron micrograph (TEM) of cardiac muscle fibrils (purple)from a healthy heart. Mitochondria (green) supply the muscle cells with energy

Cell biology laboratory. Scientist using confocal fluorescence microscopy to view stem cells

Smallpox virus particle, TEM
Smallpox virus particle. Coloured transmission electron micrograph (TEM) of a Variola major virus particle. Each particle consists of a DNA (deoxyribonucleic acid)

Infectious bronchitis virus (IBV), TEM
Infectious bronchitis virus (IBV) particles, coloured transmission electron micrograph (TEM). This virus is a member of the coronavirus family

Eastern equine encephalitis virus, TEM
Eastern equine encephalitis virus. Coloured transmission electron micrograph (TEM) of eastern equine encephalitis (EEE) virus particles (Alphavirus sp. orange) in the salivary gland of a mosquito

HIV particles, TEM
HIV (human immunodeficiency virus) particles, coloured transmission electron micrograph (TEM). Each particle consists of an RNA (ribonucleic acid, purple/brown) genome

Boy Using Microscope
A schoolboy at Lingfield Secondary uses a microscope

ROBERT HOOKE 1635 - 1703
ROBERT HOOKE English scientist. Author of Micrographia (1665), in which he published results of his microscopic investigations

Robert Hooke / Microscope
Robert Hookes microscope

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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.