magnification 328  results

Kidney glomeruli. Magnification: x60 when printed at 10 centimeters wide.Kidney glomeruli. Magnification: x60 when printed at 10 centimeters wide.
Gall bladder. Magnification: x1200 when printed at 10 centimeters wide.Gall bladder. Magnification: x1200 when printed at 10 centimeters wide.
Fat cell close up. Magnification: x1200Fat cell close up. Magnification: x1200
Gall bladder. Magnification: x1200 when printed at 10 centimeters wide.Gall bladder. Magnification: x1200 when printed at 10 centimeters wide.
Kidney glomeruli. Magnification: x60 when printed at 10 centimeters wide.Kidney glomeruli. Magnification: x60 when printed at 10 centimeters wide.
Zebrafish young. Magnification: x30 when printed 10cm wide.Zebrafish young. Magnification: x30 when printed 10cm wide.
Skin blood vessel. Magnification: 1000 when printed at 10 centimeters wide.Skin blood vessel. Magnification: 1000 when printed at 10 centimeters wide.
Composite image of nasal epithelium and pollen. Magnification: x4000 when printed at 10 centimeters wide.Composite image of nasal epithelium and pollen. Magnification: x4000 when printed at 10 centimeters wide.
Snake red blood cells. Magnification: x3000 when printed 10 centimeters wide.Snake red blood cells. Magnification: x3000 when printed 10 centimeters wide.
Composite image of nasal epithelium and pollen. Magnification: x4000 when printed at 10 centimeters wide.Composite image of nasal epithelium and pollen. Magnification: x4000 when printed at 10 centimeters wide.
Bacteria from a human beard. Colored scanning electron micrograph (SEM) of bacteria cultured from a human beard. A European study has found that the average man's beard is more replete with human-pathogenic bacteria than the dirtiest part of a dog's fur. There are around 1000 species of bacteria from 19 phyla found on human skin. Skin flora is usually non-pathogenic, and either commensal (not harmful to their host) or mutualistic (offer a benefit). Magnification: x4000 when printed at 10cm wide.Bacteria from a human beard. Colored scanning electron micrograph (SEM) of bacteria cultured from a human beard. A European study has found that the average man's beard is more replete with human-pathogenic bacteria than the dirtiest part of a dog's fur. There are around 1000 species of bacteria from 19 phyla found on human skin. Skin flora is usually non-pathogenic, and either commensal (not harmful to their host) or mutualistic (offer a benefit). Magnification: x4000 when printed at 10cm wide.
Cannabis plant. Colored scanning electron micrograph (SEM) of the surface of a cannabis (Cannabis sativa) plant. The pointed hairs are called lithocyst cells. They contain cystoliths (calcium carbonate crystals). Glandular cells called trichomes are also present. These are capitate trichomes that have stalks. These trichomes secrete a resin (yellow) containing tetrahydrocannabinol, the active component of cannabis when used as a drug. Magnification: 220X when printed 10 cm wide.Cannabis plant. Colored scanning electron micrograph (SEM) of the surface of a cannabis (Cannabis sativa) plant. The pointed hairs are called lithocyst cells. They contain cystoliths (calcium carbonate crystals). Glandular cells called trichomes are also present. These are capitate trichomes that have stalks. These trichomes secrete a resin (yellow) containing tetrahydrocannabinol, the active component of cannabis when used as a drug. Magnification: 220X when printed 10 cm wide.
Human lip. Colored scanning electron micrograph (SEM) of a human lip, showing sweat gland openings on the drier external lip surface. These openings (pores) release sweat onto the surface of the skin. This has the effect of cooling the body, as the sweat's evaporation carries away heat. Magnification x300 when printed 10cm wide.Human lip. Colored scanning electron micrograph (SEM) of a human lip, showing sweat gland openings on the drier external lip surface. These openings (pores) release sweat onto the surface of the skin. This has the effect of cooling the body, as the sweat's evaporation carries away heat. Magnification x300 when printed 10cm wide.
Scale insects. Colored scanning electron micrograph (SEM) of scale insects (superfamily Coccoidea) on a leaf. This pest feeds on the plant's sap. It secretes a powdery wax coating that protects it against pesticides and predators. Magnification: x50 when printed at 10 centimeters wide.Scale insects. Colored scanning electron micrograph (SEM) of scale insects (superfamily Coccoidea) on a leaf. This pest feeds on the plant's sap. It secretes a powdery wax coating that protects it against pesticides and predators. Magnification: x50 when printed at 10 centimeters wide.
Stomach lining. Colored scanning electron micrograph (SEM) of the glandular lining (mucosa) of the stomach. The gastric mucosa secretes the digestive enzymes and hydrochloric acid. This surface epithelium of simple columnar cells secretes mucus, while the gastric glands are the pits seen in this epithelium. From these pits digestive enzymes are produced. Thousands of these glands line the stomach wall. On the larger scale, the stomach mechanically churns food around, while on this scale, gastric juices act to chemically break down the food. This thick lining and large amounts of mucus protect the stomach from these digestive processes. Magnification: x800 when printed at 10cm wide.Stomach lining. Colored scanning electron micrograph (SEM) of the glandular lining (mucosa) of the stomach. The gastric mucosa secretes the digestive enzymes and hydrochloric acid. This surface epithelium of simple columnar cells secretes mucus, while the gastric glands are the pits seen in this epithelium. From these pits digestive enzymes are produced. Thousands of these glands line the stomach wall. On the larger scale, the stomach mechanically churns food around, while on this scale, gastric juices act to chemically break down the food. This thick lining and large amounts of mucus protect the stomach from these digestive processes. Magnification: x800 when printed at 10cm wide.
Ant head. Colored scanning electron micrograph (SEM) of the head of an ant (family Formicidae). showing its large compound eyes (red) and jaws. Magnification: x50 when printed 10 centimeters wide.Ant head. Colored scanning electron micrograph (SEM) of the head of an ant (family Formicidae). showing its large compound eyes (red) and jaws. Magnification: x50 when printed 10 centimeters wide.
Acanthocystis. Colored scanning electron micrograph (SEM) of a centrohelid heliozoan with tangential plate-scales and radial spines. This genus Acanthocystis contains unicellular, free-floating planktonic or benthonic living organisms which are common in freshwater but also found more rarely in marine habitats. The evolutionary position of the centrohelids is not clear. Magnification: x 2500, when printed 10 centimeters wide.Acanthocystis. Colored scanning electron micrograph (SEM) of a centrohelid heliozoan with tangential plate-scales and radial spines. This genus Acanthocystis contains unicellular, free-floating planktonic or benthonic living organisms which are common in freshwater but also found more rarely in marine habitats. The evolutionary position of the centrohelids is not clear. Magnification: x 2500, when printed 10 centimeters wide.
Small intestine. Colored scanning electron micrograph (SEM) of a freeze-fractured of the small intestine. The surface consists of deep folds, called villi. The intestinal surface( pink) is exposed to food. The underlying structure of this surface is seen in the sectioned area. Surface (epithelial) cells (blue) are supported by connective tissue (red) that forms the core of each fold (villus). This central core of connective tissue is known as the lamina propria. This contains large blood vessels, capillaries, some smooth muscle cells and a blind- ended lymph vessel known as a lacteal. The folds increase the area for the absorption of nutrients from food. The height of a villus varies in a small intestine from 0.3 to 0.8 millimetres. Magnification: x800 when printed at 10 centimeters wide.Small intestine. Colored scanning electron micrograph (SEM) of a freeze-fractured of the small intestine. The surface consists of deep folds, called villi. The intestinal surface( pink) is exposed to food. The underlying structure of this surface is seen in the sectioned area. Surface (epithelial) cells (blue) are supported by connective tissue (red) that forms the core of each fold (villus). This central core of connective tissue is known as the lamina propria. This contains large blood vessels, capillaries, some smooth muscle cells and a blind- ended lymph vessel known as a lacteal. The folds increase the area for the absorption of nutrients from food. The height of a villus varies in a small intestine from 0.3 to 0.8 millimetres. Magnification: x800 when printed at 10 centimeters wide.
Tendon, colored scanning electron micrograph (SEM), showing bundles of collagen fibers. The parallel alignment of the fibers make tendons inelastic but flexible. Tendons attach muscle to bone. Magnification: x5000 when printed at 10 centimeters wideTendon, colored scanning electron micrograph (SEM), showing bundles of collagen fibers. The parallel alignment of the fibers make tendons inelastic but flexible. Tendons attach muscle to bone. Magnification: x5000 when printed at 10 centimeters wide
Bacteria from a coin. Colored scanning electron micrograph (SEM) of bacteria cultured from a english one pound coin. A study that tested a random selection of coins and notes of all denominations discovered the presence of 19 kinds of bacteria, including two life threatening bacteria associated with antibiotic resistant superbugs - Staphylococcus aureus (MRSA) and Enterococcus faecium (VRE). Bacteria associated with MRSA was discovered on the 2p, 5p, 10p, �1 and �2 coins, as well as the �10, �20 and �50 notes. MRSA can lead to boils, skin infections, food poisoning and toxic shock syndrome. The bacteria Enterococcus faecium was found on the 2p, 5p and 10p coins as well as the �10 note. This bacteria can cause blood, abdomen, skin and urinary tract infections. Magnification: x2600 when printed at 10cm wide.Bacteria from a coin. Colored scanning electron micrograph (SEM) of bacteria cultured from a english one pound coin. A study that tested a random selection of coins and notes of all denominations discovered the presence of 19 kinds of bacteria, including two life threatening bacteria associated with antibiotic resistant superbugs - Staphylococcus aureus (MRSA) and Enterococcus faecium (VRE). Bacteria associated with MRSA was discovered on the 2p, 5p, 10p, �1 and �2 coins, as well as the �10, �20 and �50 notes. MRSA can lead to boils, skin infections, food poisoning and toxic shock syndrome. The bacteria Enterococcus faecium was found on the 2p, 5p and 10p coins as well as the �10 note. This bacteria can cause blood, abdomen, skin and urinary tract infections. Magnification: x2600 when printed at 10cm wide.
Staphylococcus aureus (MRSA) coccoid bacteria, colored scanning electron micrograph (SEM). Group dividing and stuck together with mucilage. Staphylococcus aureus - Gram-positive, MRSA, coccus prokaryote (dividing); causes food poisoning, toxic shock syndrome and skin and wound infections such as scalded skin syndrome, scarlet fever, erysipelas and impetigo. Methicillin resistant Staphylococcus aureus (MRSA) infections that are acquired by persons who have not been recently hospitalized or had a medical procedure are known as CA-MRSA (Community associated-MRSA) infections. CA-MRSA infections in the community are usually manifested as skin infections, such as pimples and boils, and occur in otherwise healthy people. Magnification: x4, 400 when shortest axis printed at 25 millimeters.Staphylococcus aureus (MRSA) coccoid bacteria, colored scanning electron micrograph (SEM). Group dividing and stuck together with mucilage. Staphylococcus aureus - Gram-positive, MRSA, coccus prokaryote (dividing); causes food poisoning, toxic shock syndrome and skin and wound infections such as scalded skin syndrome, scarlet fever, erysipelas and impetigo. Methicillin resistant Staphylococcus aureus (MRSA) infections that are acquired by persons who have not been recently hospitalized or had a medical procedure are known as CA-MRSA (Community associated-MRSA) infections. CA-MRSA infections in the community are usually manifested as skin infections, such as pimples and boils, and occur in otherwise healthy people. Magnification: x4, 400 when shortest axis printed at 25 millimeters.
Prostate cancer cell, colored scanning electron micrograph (SEM). of the surface of prostate cancer cells. The cells shows numerous processes and microvilli (fine surface projections). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The prostate is a small gland found in men just below the bladder, surrounding the urethra, the tube urine passes through. Prostate cancer is most prevalent in men over 50 years of age. Treatment is with hormone therapy, chemotherapy, or surgical removal of the prostate. Magnification: x 8000 when printed at 10 centimeters across.Prostate cancer cell, colored scanning electron micrograph (SEM). of the surface of prostate cancer cells. The cells shows numerous processes and microvilli (fine surface projections). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The prostate is a small gland found in men just below the bladder, surrounding the urethra, the tube urine passes through. Prostate cancer is most prevalent in men over 50 years of age. Treatment is with hormone therapy, chemotherapy, or surgical removal of the prostate. Magnification: x 8000 when printed at 10 centimeters across.
Breast cancer cell. Colored scanning electron micrograph (SEM) of a breast cancer cell. The cell shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.Breast cancer cell. Colored scanning electron micrograph (SEM) of a breast cancer cell. The cell shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.
Prostate cancer cell, colored scanning electron micrograph (SEM). of the surface of prostate cancer cells. The cells shows numerous processes and microvilli (fine surface projections). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The prostate is a small gland found in men just below the bladder, surrounding the urethra, the tube urine passes through. Prostate cancer is most prevalent in men over 50 years of age. Treatment is with hormone therapy, chemotherapy, or surgical removal of the prostate. Magnification: x 8000 when printed at 10 centimeters across.Prostate cancer cell, colored scanning electron micrograph (SEM). of the surface of prostate cancer cells. The cells shows numerous processes and microvilli (fine surface projections). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The prostate is a small gland found in men just below the bladder, surrounding the urethra, the tube urine passes through. Prostate cancer is most prevalent in men over 50 years of age. Treatment is with hormone therapy, chemotherapy, or surgical removal of the prostate. Magnification: x 8000 when printed at 10 centimeters across.
Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.
Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.
Marjoram (Origanum vilgare) leaf surface, coloured scanning electron micrograph (SEM). Glandular trichomes are red, hair-like trichomes are green. Magnification: x60 when printed at 10 centimetres wide.Marjoram (Origanum vilgare) leaf surface, coloured scanning electron micrograph (SEM). Glandular trichomes are red, hair-like trichomes are green. Magnification: x60 when printed at 10 centimetres wide.
High vacuum SEM image of very small spider (frontal view larger magnification)High vacuum SEM image of very small spider (frontal view larger magnification)
Eyelash follicle, Color scanning electron micrograph. Magnification: x400 when printed at 10 centimeters wide.Eyelash follicle, Color scanning electron micrograph. Magnification: x400 when printed at 10 centimeters wide.
Magnification of a Leech under a Color scanning electron micrograph.Magnification of a Leech under a Color scanning electron micrograph.
Nematode infection. Light micrograph of a section through a stomach infected with parasitic nematode worms (purple). Food debris (orange) is also seen. Magnification: x60 when printed at 10 centimeters wide.Nematode infection. Light micrograph of a section through a stomach infected with parasitic nematode worms (purple). Food debris (orange) is also seen. Magnification: x60 when printed at 10 centimeters wide.
Magnification view of Marjoram (Origanum vulgare) leaf surface under a Color scanning electron micrographMagnification view of Marjoram (Origanum vulgare) leaf surface under a Color scanning electron micrograph
Magnification view of blood clot under a Color scanning electron micrographMagnification view of blood clot under a Color scanning electron micrograph
Magnification view of a deformed sperm cell under a Color scanning electron micrographMagnification view of a deformed sperm cell under a Color scanning electron micrograph
Magnification view of a Sperm cell under a Color scanning electron micrographMagnification view of a Sperm cell under a Color scanning electron micrograph
Magnification of false color transmission electron micrograph of a non-motile, non- sporing bacterium, Calymmatobacterium sp.Magnification of false color transmission electron micrograph of a non-motile, non- sporing bacterium, Calymmatobacterium sp.
Magnification of a false-color transmission electron micrograph of single Serratia sp. BacteriumMagnification of a false-color transmission electron micrograph of single Serratia sp. Bacterium
Magnification view of Horse chestnut pollen grain under a Color scanning electron micrographMagnification view of Horse chestnut pollen grain under a Color scanning electron micrograph
Magnification view of myelinated nerve fibers under a Color scanning electron micrographMagnification view of myelinated nerve fibers under a Color scanning electron micrograph
Magnification view of a fractured bile duct under a Color scanning electron micrographMagnification view of a fractured bile duct under a Color scanning electron micrograph
Magnification view of cultured cancer cells under a Color scanning electron micrographMagnification view of cultured cancer cells under a Color scanning electron micrograph
Magnification view of internal lining of the gall bladder under a Color scanning electron micrographMagnification view of internal lining of the gall bladder under a Color scanning electron micrograph
Magnification view of fat (adipose) tissue under a Color scanning electron micrographMagnification view of fat (adipose) tissue under a Color scanning electron micrograph
Magnification view of a podocyte cell, kidney glomerulus, under a Color scanning electron micrographMagnification view of a podocyte cell, kidney glomerulus, under a Color scanning electron micrograph
Magnification view of influenza virus under a color transmission electron micrographMagnification view of influenza virus under a color transmission electron micrograph
Magnification view of a water lily stem under a Color scanning electron micrographMagnification view of a water lily stem under a Color scanning electron micrograph
Magnification view of activated platelets under a Color scanning electron micrographMagnification view of activated platelets under a Color scanning electron micrograph
Magnification view of crenated red blood cells under a Color scanning electron micrographMagnification view of crenated red blood cells under a Color scanning electron micrograph

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