Microscopy
Base
Supports microscope
parfocal
a special property of the microscope that allows you to move from one objective to another with only minimal adjustments of the fine focus knob once you have the image in focus
Arm
for carrying the microscope
Fine and coarse focusing knob
for focusing the specimen
Forward/backward and lateral stage motion knobs
for moving the slide with the specimen
Light source
lamp that illuminates specimen
low power objective
magnifies the specimen 10X for a total magnification of 100X
Resolving power (resolution)
the ability of the lenses to distinguish fine detail and structure.
field of view
the area or diameter of the specimen that is in view. The higher the magnification, the smaller the field of view
Refractive index
the bending of light passing through air between the objective lens and the slide
working distance
the distance between the specimen and the tip of the objective lens. In general, the higher the magnification, the shorter the working distance.
Diopter ring
For adjusting the focus to the users eyes
Revolving nosepiece
For rotating the objectives into viewing position
Iris diaphragm
Controls the amount of light that passes through the condenser lens
Compound microscope
Have 2 lenses between the eye and the object. The light passes through the objective lens (lens #1) and the ocular lens (lens #2)
Condensor
Lens that condenses the light before it passes through the specimen
Bright field microscope
the object being observed is dark in a bright field
depth of field
the thickness of the object that is simultaneously in focus. The higher the power of magnification , the less in depth of focus
Total magnification
total magnification of both lenses, the objective lens X ocular lens. The ocular eyepiece usually magnifies the image 10X, and the objectives magnify the image 4X, 10X, 40X and 100X. For example, when using the 40X objective and a 10X ocular, the total magnification would be: 40*10=400. Total magnification is objective * eyepiece.
Numerical aperture
used to determine the efficiency of the condenser and objective. The larger the numerical aperture, the brighter and better resolved the image.
high-dry objective
40X, the objective used for higher magnification without oil
scanning objective lens
4X the objective used to see the greatest field of view at the lowest magnification. To use for the initial searching over a wide area. Notice that the lowest power objectives have the shortest tubes
Objectives
4X, 10X, 40X, and 100X lens that magnify the specimen
oil immersion objective
100X, the objective used for the highest magnification with oil.
Width adjustment
Adjusts distance between ocular lenses to match the distance between eyes of viewer
Daylight filter
Blue filter that provides a short wavelength for maximum resolution
Eyepiece
Magnifies the object 10X (this mixroscope is binocular because it contains 2 ocular lenses)
Stage
Platform that holds the microscope slide and slide holder
