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Abbe Condenser: |
A
specially designed lens that mounts under the stage and is
usually movable in the vertical direction. It has an iris
type aperture to control the diameter of the beam of light
entering the lens system. By changing the size of the iris
and moving the lens toward or away from the stage, the
diameter and focal point of the cone of light that goes
through the specimen can be controlled. Abbe condensers
really become useful at magnifications above 400X. The
condenser lens system should have a numerical aperture equal
to or greater than the N.A. of the objective lens being
used. All of our microscopes that go to 1000X use Abbe
condensers with a 1.25 N.A. There are two types. One is a
spiral type that you turn to move it up or down and the
other is on a rack and pinion system and controlled with a
condenser focusing knob. See numerical aperture.
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Achromatic lenses: |
When
light goes through a prism or lens, it is bent or
refracted. Some colors refract more than others and as a
result, will focus at different points, reducing
resolution. To help correct this problem, achromatic lenses
are used. These lenses are made of different types of glass
with different indexes of refraction. The result is a
better (but not perfect) alignment of all the colors at the
focal point, thereby giving you a clearer image. All of our
microscopes use achromatic or semi-plan lenses.
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|
Arm: |
The part
of the microscope that connects the tube to the base. When
carrying a microscope, grab the arm with one hand and place
your other hand under the base.
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Articulated Arm: |
A
type of stand that holds a microscope body. The stand
clamps to a table and has a variety of motion in three
dimensions. |
|
Base: |
The
bottom support of the microscope (see arm above). |
|
Binocular Head: |
A
microscope head with two eyepiece lenses, one for each eye.
Generally this term is used with high power microscopes
only. With a low power microscope we say "stereo" head.
Because there is only one objective lens with the high power
microscope, you will not get stereo vision like you do with
the low power microscopes. |
|
Body: |
This
term is used mostly with the low power stereo microscopes
and it is the basic heart of the microscope without any type
of stand (base) or illuminators. It usually includes the
eyepiece and objective lenses but not the focusing block. |
|
C-mount: |
This is
an adapter used with various types of video cameras.
Usually, you unscrew the lens from the camera and screw in
the adapter. The adapter then connects to the trinocular
port on the microscope. |
|
Coarse
Focus: |
This is
the rough focus knob on the microscope. You use it to move
the objective lenses toward or away from the specimen (see
fine focus). |
|
Coaxial
Focus:
|
A
focusing system that has both the coarse and fine focusing
knobs mounted on the same axis. Usually the coarse knob is
larger and on the outside and the fine knob is smaller and
on the inside. On some coaxial systems, the fine adjustment
is calibrated, allowing differential measurements to be
recorded. |
|
Condenser Lens:
|
A lens
mounted in or below the stage whose purpose is to focus or
condense the light onto the specimen. The higher power
objective lenses have very tiny diameters and require
concentrated light to work properly. By using a condenser
lens you will increase the Illumination and resolution.
Condenser lenses are not required on low power microscopes. |
|
Contrast
Plate: |
A
circular opaque plate placed on the stage of a low power
microscope. One side is white, the other is black. It can
be flipped around depending on the coloration of your
specimen. |
|
Cover
Slip:
|
A very
thin square piece of glass or plastic placed over the
specimen on a microscope slide. When used with liquid
samples, it flattens out the liquid and assists with single
plane focusing. |
|
Diaphragm:
|
Generally a five hole disc placed under the stage on a high
power microscope. Each hole is of a different diameter. By
turning it, you can vary the amount of light passing through
the stage opening. This will help to properly illuminate
the specimen and increase contrast and resolution. The
diaphragm is most useful at the higher powers. |
|
DIN
Optics:
|
A German
standard for the manufacturing of microscope lenses. DIN
lenses aren't particularly better than non-DIN but they will
be interchangeable from one DIN microscope to another. All
of our microscopes except the entry level instruments use
DIN optics.
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|
Diopter
Adjustment:
|
When you
look through a microscope with two eyepiece lenses, you must
be able to change the focus on one eyepiece to compensate
for the difference in vision between your two eyes. The
diopter adjustment does this. The way to correctly adjust
this is to first close the eye over the eyepiece with the
diopter adjustment and normally focus the microscope so that
the open eye sees the image in focus. Next, switch eyes
(close the open eye, open the closed eye) and without
changing the main focus knobs, focus on the image by turning
the diopter adjustment only. Now with both eyes open, the
image should be clear with both eyes. (This technique is
used with binoculars too.)
|
|
Dual
Head:
|
A
microscope (usually high power) with a single eyepiece lens
coming out one side and an additional single eyepiece tube
coming either off the top or from the opposite side. Dual
heads are used so that a teacher can verify what a student
is seeing or can be used for video or camera work. It is
not recommended that two students do a lab sharing a single
dual microscope as it will get to be uncomfortable for the
student using the top eyepiece. |
|
Eyepiece
Lens:
|
The lens
at the top of the microscope that you look into. They are
usually 10X but also are available in 5X, 15X and 20X.
Widefield lenses have a large diameter and show a wide area
of the field of view. All of our eyepiece lenses are
widefield. |
|
Fine
Focus:
|
This is
the knob used to fine tune the focus on the specimen. It is
also used to focus on various parts of the specimen.
Generally one uses the coarse focus first to get close then
moves to the fine focus knob for fine tuning. |
|
Field of
View:
|
Sometimes abbreviated "FOV", it is the diameter of the
circle of light that you see when looking into a
microscope. As the power gets greater, the field of view
gets smaller. You can measure this by placing a clear
metric ruler on the stage and counting the millimeters from
one side to the other. |
|
Fixed
Arm:
|
A type
of stand used with low power microscopes. The arm and body
are integral parts of the microscope and connected solidly
to the base.
|
|
Head:
|
The
upper part of the microscope that contains the eyepiece tube
and prisms. On some microscopes the head is easily
removable and replaceable (i.e.: model 160). A monocular
head has one eyepiece, a binocular has two (one for each
eye), a dual head has two but they are not together, and a
trinocular head has three, one which is generally used for a
camera connection. |
|
Illuminator:
|
A light
source mounted under the stage. Three types of light are
used: Tungsten, Fluorescent and Halogen. Tungsten is the
least expensive and most common. Fluorescent is bright,
white and runs cool and Halogen is very bright and white but
gives off heat like tungsten. Our choice is fluorescent. |
|
Immersion Oil:
|
A
special oil used in microscopy with only the 100X objective
lens (usually at 1000X total power). A drop is placed upon
the cover slip and the objective is lowered until it just
touches the drop. Once brought into focus, the oil acts as
a bridge between the glass slide and the glass in the lens.
This concentrates the light path and increasing the
resolution of the image. Both Type A and Type B are
commonly used in light microscopy and the only difference is
the viscosity (B is more viscous). |
|
Inclination Joint:
|
Where
the arm connects to the base, there may be a pin. If so,
you can place one hand on the base and with the other grab
the arm and rotate it back. It will tilt your microscope
back for more comfortable viewing. One drawback of tilting
it back is that wet samples will run off the slide. |
|
interpupiliary Adjustment:
|
When
using a stereo or binocular microscope there must be an
adjustment for the distance between the viewers eyes. A
young child will have a small interpupiliary distance and an
adult a larger one. The eyepiece lenses will spread apart
or get closer together to fit each individual. This should
be the first adjustment to make so that you are comfortably
viewing the specimen with both eyes. |
|
Mechanical Stage:
|
A
mechanical way to move the slide around on your stage. It
consists of a slide holder and two knobs. Turn one knob and
the slide moves toward or away from you. Turn the other
knob and the slide moves left and right. Since everything
is upside down on a (high power) microscope it takes some
getting used to but it is very convenient to have one
especially when observing moving specimens like protozoans
or other pond water critters. Our microscopes either have
the bolt on mechanical stage that can be added (to many
models) at any time or the integral mechanical stage that
comes built in to the (researcher) microscopes.
|
|
Mirror:
|
Allows
you to direct ambient light up through the hole in the stage
and illuminate the specimen. |
|
Monocular Head:
|
A
microscope head with a single eyepiece lens. |
|
Nosepiece:
|
The part
of the microscope that holds the objective lenses also
called a revolving nosepiece or turret. |
|
Numerical Aperture (N.A.):
|
This is
a number that expresses the ability of a lens to resolve
fine detail in an object being observed. It is derived by a
complex mathematical formula and is related to the angular
aperture of the lens and the index of refraction of the
medium found between the lens and the specimen. To get the
best possible image, you should have a condenser system that
matches or exceeds the N.A. of the highest power objective
lens on your microscope. (note, N.A. is only important with
high power microscopes). To learn more about N.A. and see
comparative images,
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|
Objective Lens:
|
The lens
closest to the object. In a stereo (low power) microscope
there are objective pairs, one lens for each eyepiece lens.
This gives the 3-D effect. On a high power binocular model
there is still only one objective lens so no stereo vision. |
|
Oil
Immersion Lens:
|
An
objective lens (usually 100X or greater) designed to work
with a drop of special oil placed between it and the slide.
With oil, an increase in resolution will be noticed. Also,
see "Immersion Oil" above. |
|
Parcentered:
|
This is
an alignment issue. When changing from one objective lens
to another, the image of the object should stay centered.
Test this by centering something in your field of view.
Change to a higher power. Is it still centered? All of our
microscopes are parcentered. |
|
Parfocal:
|
This is
a focus issue. When changing from one objective to
another, the new image should be either in focus or close
enough so that you can refocus with only minor
adjustments. All of our microscopes are parfocaled. |
|
Pointer:
|
When you
look through the eyepiece lens, you may see a pointer. By
turning the eyepiece, you can rotate the pointer around.
|
|
Post
Stand:
|
A type
of stand used with low power microscopes. It consists of a
single post rising vertically from the base. The microscope
body can rotate about the post and also be moved up and down
on it.
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|
Rack and
Pinion: |
The rack
is a track with teeth and the pinion is a gear that rides on
the teeth. By turning a knob, the pinion gear moves along
the rack. These systems are used in focusing mechanisms, in
Abbe condenser focusing systems, and on mechanical stages to
move the slide around. |
|
Rack
Stop (or Safety Rack Stop):
|
Usually
set at the factory, the rack stop keeps you from cranking
the objective lenses too far down (damaging something). If
you are using a very thin slide, you may find that you can't
get the high power objective lens close enough to the slide
to focus. Here you can either adjust the rack stop or place
a thin glass slide under your original slide, making it
closer to the lens. |
|
Reticle: |
A very
tiny grid pattern inserted in an eyepiece lens. It is used
to make actual measurements of the size of objects seen
through the microscope. |
|
Revolving Nosepiece:
|
See
nosepiece |
|
Ring
Light:
|
An
independent light that usually connects to the microscope
body and gives off a ring of light. |
|
Semi-Plan Lenses:
|
Lenses
are never perfect. If you were looking at something
perfectly flat, you might find that much of the center part
of your field of view is in focus but out on the edges it is
fuzzy and a bit out of focus. Semi-plan lenses improve this
deficiency by showing sharper images and less aberrations in
the perimeter of the field of view. They are better than
standard achromatic lenses but cost quite a bit more. |
|
Slide:
|
A flat
glass or plastic rectangular plate that the specimen is
placed on. It may have a depression or well to hold a few
drops of liquid.
|
|
Slip
Clutch:
|
When
students bring the focus all the way up or down and continue
to try turning the knob, damage to the focusing system can
occur if there wasn't a slip clutch. This mechanism is one
more extra thing we make sure is on every microscope we
sell. |
|
Stage:
|
The flat
plate where the slides are placed for observation. |
|
Stage
Clips: |
Clips
on the stage used to hold the slide in place. |
|
Stage
Plate:
|
On a low
power microscope, there is a frosted circular glass plate
that fits in over the lower illuminator. This is called the
stage plate. See also contrast plate. |
|
Stand:
|
On a low
power microscope, the type of connection between the
microscope body and the base. There are three main types:
the post, the fixed arm and the universal boom stand.
|
|
Stereo:
|
Related
to microscopes, seeing with both eyes through separate
eyepiece and objective lenses. With two objectives, the
image looks 3-D, we see it in "stereo"! See also Binocular
head. |
|
Student
Proofed: |
We're
always trying to outwit the students. Many of our classroom
type microscopes have just about everything locked down.
You need special tools to remove eyepiece lenses, objective
lenses and they have all the safety devices like the rack
stop. Not totally student proofed (like drop proof!) but
close. |
|
Sub-stage: |
The
area below the stage as in "sub stage illuminator" |
|
T-mount:
|
A type
of adapter used to mate still cameras (usually 35mm) to
microscopes |
|
Tension
Adjustment:
|
This is
an adjustment of the focusing mechanism that is made at the
factory. It is set so that the instrument is easy to focus
but also tight enough so that the stage doesn't drift when
you are not focusing. Stage drift is caused by the weight
of the stage (or tube) automatically un-focusing the
microscope.
|
|
Trinocular Head:
|
Available on both high and low power microscopes, tri heads
have two eyepiece lenses (one for each eye) and a third port
at the top for a camera. Some microscopes give you the
option of sending all the light to the tri port, or perhaps
half and half, or maybe 70/30%. On some stereo tri heads
with dual power, the tri port transmits the image through
the set of lenses not being used by the stereo eyepieces. |
|
Turret: |
See
nosepiece. |
|
Universal Stand:
|
A long
boom type arm used to support a (low power) microscope
body. It has many adjustments allowing the microscope to be
aligned in a wide variety of configurations. Generally one
uses an external (like a fiber optic) light source with a
universal stand.
|
|
Widefield eyepiece lenses:
|
These
are wide diameter glass eyepiece lenses. They offer the
greatest field of view when looking at specimens. All of
our eyepiece lenses are widefield. |
|
X:
|
Times as
in 200X or two hundred times magnification. The
magnification of a microscope is determined by multiplying
the power of the eyepiece lens by the power of the
corresponding objective lens. |
|
XR:
|
The X is
times (see above) and the R stands for retractable. These
objective lenses have a spring loaded tip so if they hit the
slide, they will retract, and telescope inward. This
prevents damage to the lens or slide. |
