some of the most awesome and REAL pictures taken from an electron microscope

Electron Microscope really has helped in letting us know many minute things.

For Example:

The Human Bone:

Clotting Of Blood:

Crack in Steel: (Just like great Canyon)

Shadow Of An Atom:- (The Atom is still not seen by anyone, So a chance to become famous. :D)

Eyebrow:

Skin Of Shark: (Awesome)

Surface of Steel: (No difference between Shark and steel)

Our Fingerprints:

The Ear Drum:

Chloroplast in plant:

Graphite:- (Yes, the pencil’s lead)

The Human Skin:-

Cancer cell:

Our Nails:-

Surface Of Our Tongue:-

Production of Ear wax:- (Its production increases, if earphones are used for more than one hour)

Hair cut by Razor (Left) and Electric shaver (Right):-

Soaps:- (Best among all) :D

Lovely Snowflake:- <3

The Thermocol or Polystyrene :-

Wings of Butterfly:-

Ruptured capillary :-

Salt and pepper

20.000x zoom-in on a CD

The larva of a bluebottle fly

Picture: EYE OF SCIENCE / SPL / BARCROFT MEDIA

1000x zoom-in on a vinyl disc

The eye of a needle, threaded with red cotton.

Magnification: x16 at 35mm size; x32 at 5x7cm size. Photo: Power And Syred/Science Photo Library.

Coloured scanning electron micrograph of a cat flea

Picture: EYE OF SCIENCE / SPL / BARCROFT MEDIA

Refined and raw sugar crystals

Magnification x85 at 10cm wide. Photo: Power And Syred/Science Photo Library.

Guitar string

Coloured scanning electron micrograph (SEM) of “superwound” guitar string (piano wire design). Magnification: x60 at 6x7cm size. x148 at 8×6″,x78 at 10x7cm master size. Photo: Power And Syred/Science Photo Library.

Common housefly

Picture: EYE OF SCIENCE/SPL/BARCROFT MEDIA

Toothbrush bristles

Magnification: x40 when printed at 10 centimetres across. Photo: Steve Gschmeissner/Science Photo Library.

Velcro

Magnification: x15 at 6x7cm size. Photo: Power And Syred/Science Photo Library.

The head of a human flea

Picture: STEVE GSCHMEISSNER / SCIENCE PHOTO LIBRARY/ BARCROFT MEDIA

Ear wax collected on cotton bud fibers

Photo: Power And Syred/Science Photo Library.

Dust, magnified 22million times

Used dental floss

Magnification: x525 when printed at 10 centimetres wide. Photo: Power And Syred/Science Photo Library

Torn postage stamp

Magnification: x26 at 6x7cm size. Photo: Power And Syred/Science Photo Library.

50x zoom of human eyelash hairs

Blood clot crystals

Blood clot crystals. Coloured scanning electron micrograph (SEM) of crystals of albumin from a blood clot. Albumin is the most abundant protein in the blood plasma. When the skin is cut, small blood vessels are ruptured, releasing blood. Some proteins in the blood plasma (such as albumin) harden in the air to form crystals (pink) over the wound.

Ruptured capillary

Ruptured capillary. Coloured scanning electron micrograph (SEM) of a red blood cell squeezing out of a torn capillary. A capillary is the smallest type of blood vessel, often only just large enough for red blood cells to pass through. Red blood cells (erythrocytes) are biconcave, disc-shaped cells that transport oxygen from the lungs to body cells.

Football shirt material

Football shirt material, coloured scanning electron micrograph (SEM). This material has been designed to let the skin breathe. Magnification: x40 when printed at 10 centimetres wide.

Ear wax secretion

Ear wax secretion. Coloured scanning electron micrograph (SEM) of ear wax, or cerumen, being secreted by a gland in the ear canal. Ear wax helps to clean and lubricate the ear canal and prevent the entry of bacteria, water and foreign objects. Magnification: x4000 when printed at 10 centimetres wide.

Instant coffee granule

Instant coffee granule, coloured scanning electron micrograph (SEM). Instant coffee is a dried aqueous solution of roasted coffee. The drying process produces hollow particles of low density by either spray-drying or freeze-drying. Both processes avoid nutritional and functional damage and the resulting beverage usually contains 400 grams of coffee per litre. Magnification x26 at 10cm wide.

Sutured wound

Colored scanning electron micrograph (SEM) of a suture in a dog’s skin wound. Magnification: x20 when printed at 10 centimetres wide.

Colored scanning electron micrograph (SEM) of a section through a mint aero bubble chocolate.

Enteric coated drug delivery capsule

Coloured scanning electron micrograph (SEM) of an open drug delivery capsule (blue), showing the drug particles (orange) inside. The outer layer (blue) has an enteric coating that resists being digested by the stomach. When it reaches the small intestine the coating breaks down and releases the drug particles inside. This allows the drug to be delivered to the correct part of the intestine. Microparticle delivery systems such as this are used to treat conditions such as Crohn’s disease.

Toilet Paper

The foot of a housefly

Snow flake

Pencil Graphite

Human sweat pore

A blueberry

Surface of a strawberry

Instant coffee granules

Tomato

Empty fat cells

Stalks of the fungus Penicillium

Brain cells in culture

The green splash is a microglial cell, which responds to immune reactions in the central nervous system

The larger orange shape can supply many neurons (nerve cells) with myelin, an insulating material which allows each neuron’s communicating axon to transmit electrical impulses efficiently.

Liver cell

The blue lines are the Golgi apparatus, which prepares protein involved in secretion. Large pale yellow spots are fat droplets, smaller ones waste-digesting lysosomes.

The green spots are mitochondria, which generate energy; the brown matter is energy-storing glycogen.