Stereo Inspection Microscope

Stereo Inspection Microscope
Unlike a compound microscope that offers a 2-dimensional image, stereo microscopes give
the viewer an erect (upright and un-reversed) stereoscopic (3-dimensional) image. This is
particularly useful for biologists performing dissections, technicians repairing circuit
boards, paleontologists cleaning and examining fossils, or anyone who needs to work with
their hands on small objects. Most stereo microscopes are used at magnifications from 5X
to 90X, but with the proper microscope and accessories, magnifications up to approaching
180X can be achieved. For educational and simple hobby use refer to the Binocular Stereo
Microscopes. To customize and build a stereo microscopy system for industrial or
advanced applications refer to the Trinocular, Boom and Inspection Microscopes. These
types of system will allow one to customize stands and illumination systems for any type of
application. For Research Grade Stereo Microscopes we feature the zoom and boom Series.
These systems are designed for critical viewing for research, medical, forensic and other
high end stereo uses.
Microphotography
For many applications the ability to capture, display, and preserve specimen images is of
equal or greater importance than actually viewing the specimen through the eyepieces.
Photomicrography (35mm and other chemical formats) has been a common option on
microscopes for decades, but the recent development of relatively inexpensive CCD
(charged couple device) video and digital cameras has greatly increased both the
popularity and flexibility of microscope imaging. Instead of clicking through slides during a
lecture, university professors can now display real-time video images on projection
televisions; petroleum geologists can e-mail images of core samples to their laboratories
from remote locations around the world; oncologists can refer to CD or on-line catalogues
of cell images to help them make faster and more accurate diagnoses. For video and digital
imaging, refer to “CCD, USB, Camera”, LP Digital Scope and HP Digital Scope sections.
There are many different methods for capturing, displaying, and recording microscope
images, and each has its own advantages and disadvantages. It would be impossible to
cover all of these options here but one basic piece of information will be important in
selecting your microscope: While it is possible to mount a camera on a monocular or
binocular microscope (note: a binocular microscope has two eyepieces, but is not
necessarily a stereo microscope), it is far better to use a trinocular microscope designed for
camera work. Trinocular models have two eyepieces for normal viewing, plus a third
"phototube" on which you can mount a camera without interfering with the normal
operation of the microscope. Trinocular microscopes are ideal for photo, digital or video
applications. Depending upon your application, additional components may be required for
your microscope. Our friendly sales force can assist you in choosing the correct items
required.
Stereo Microscopes
SM-6T-FRL
$549.98
GM400TY
$1,245.00
V-SM-3
$4,165.21
SMDG-2T
$319.98
How to Use a Properly Use a Microscope
1. When transporting the microscope, carry it close to your body with one hand on the
arm and the other on the base. If you are unsure what part of the microscope is
which, I recommend starting at our Microscope Parts.
2. Once you have removed the dust cover from the microscope if using one, and have
plugged the microscope in, arrange the excess cord in a manner that will prevent you from
tripping on it and knocking the microscope over. A microscope is a precision instrument, so
any sharp movements or impact can set the fine elements of the unit off.
3. As a general rule, always start and end with the lowest power objective on the
microscope (usually 4X), as it is easiest to focus and center the sample in the image on a
lower power. Also, since it is the shortest objective lens, there is the least chance of
scratching the lens when situating or removing the slide from the microscope. The below
image shows how to properly mount the sample onto your slide.
4. Turn on the microscope and place the slide on the microscope stage with the specimen
directly over the circle of light. Doing this will give you a 90% chance of finding the
specimen as soon as you look through the eyepiece. If your microscope is monocular (it has
only one eyepiece), close or cover your other eye for accuracy and comfort when viewing. If
your microscope is binocular, adjust the interpupillary distance (the distance between the
eyepieces) by either sliding or rotating the eyepieces (called adjusting the diopter if
present on the microscope) appropriately until you can see only one circle of light with
both eyes open.
History of the Microscope
The Beginning
During that historic period known as the Renaissance, after the "dark" Middle Ages, there
occurred the inventions of printing, gunpowder and the mariner's compass, followed by the
discovery of America. Equally remarkable was the invention of the light microscope: an
instrument that enables the human eye, by means of a lens or combinations of lenses, to
observe enlarged images of tiny objects. It made visible the fascinating details of worlds
within worlds.
Invention of Glass Lenses
Long before, in the hazy unrecorded past, someone picked up a piece of transparent crystal
thicker in the middle than at the edges, looked through it, and discovered that it made
things look larger. Someone also found that such a crystal would focus the sun's rays and
set fire to a piece of parchment or cloth. Magnifiers and "burning glasses" or "magnifying
glasses" are mentioned in the writings of Seneca and Pliny the Elder, Roman philosophers
during the first century A. D., but apparently they were not used much until the invention of
spectacles, toward the end of the 13th century. They were named lenses because they are
shaped like the seeds of a lentil.
The earliest simple microscope was merely a tube with a plate for the object at one end
and, at the other, a lens which gave a magnification less than ten diameters -- ten times the
actual size. These excited general wonder when used to view fleas or tiny creeping things
and so were dubbed "flea glasses."
Birth of the Light Microscope
About 1590, two Dutch spectacle makers, Zaccharias Janssen and his son Hans, while
experimenting with several lenses in a tube, discovered that nearby objects appeared
greatly enlarged. That was the forerunner of the compound microscope and of the
telescope. In 1609, Galileo, father of modern physics and astronomy, heard of these early
experiments, worked out the principles of lenses, and made a much better instrument with
a focusing device. The father of microscopy, Anton van Leeuwenhoek of Holland (16321723), started as an apprentice in a dry goods store where magnifying glasses were used to
count the threads in cloth.
He taught himself new methods for grinding and polishing tiny lenses of great curvature
which gave magnifications up to 270 diameters, the finest known at that time. These led to
the building of his microscopes and the biological discoveries for which he is famous. He
was the first to see and describe bacteria, yeast plants, the teeming life in a drop of water,
and the circulation of blood corpuscles in capillaries. During a long life he used his lenses to
make pioneer studies on an extraordinary variety of things, both living and non living, and
reported his findings in over a hundred letters to the Royal Society of England and the
French Academy.
For more information please visit
https://www.amscope.com

This model comes with color corrected infinity optical system (CSIS), a movable large working distance condenser, 45 degree inclined trinocular head, high eye-point Plan eyepieces, infinity long working distance PLAN achromatic objectives and infinity long working distance PLAN phase contrast objectives. This microscope offers nine brightfield magnification powers, 40X, 60X, 100X, 150X, 200X, 300X, 400X, 600X & 900X, and six phase contrast settings, 100X, 150X, 200X, 300X, 400X & 600X. Its 30 watt adopt Kohler illumination system was designed for 90-240V wide voltage power supplies.