Parts of the light Microscope 1. Ocular lens or eyepiece: most are 10x magnification. The scopes used are binocular (two eyepieces). 2. Body tube: contains mirrors and prisms which direct the image to the ocular lenses. 3. Nosepiece: holds the objective lenses, rotates 4. Objective lenses: usually 3-4 on our scopes, 4x, 10x, 43x, 100x oil immersion (red banding). Total magnification = ocular power x objective power. Most of our binocs have fixed position lenses--the stage moves up and down rather then the lens. 5. Stage: Movable platform on which slides are mounted for viewing; all of the scopes have mechanical stages with X,Y vernier scales. Focus knobs move the stage up and down. 6. Condensor: A substage lens which focus the light on the specimen. The binocs have condensors that move up and down to focus the light beam. 7. Iris Diaphragm: the diaphragm is located just below the stage and controls the amount of light which passes to the specimen and can drastically affect the focus of the image. 8. Focusing knobs: outermost is the fine focus and innermost is the coarse focus. On the binocs these knobs control up/down movement of the stage. 9. Light source: The scopes have built in light sources. The rheostat ON/OFF switch is located either on the scope or on the external power supply and is used to regulate light intensity.
The following lists the parts of a typical laboratory-grade compound (optical) microscope.
"Bargain" microscopes may be missing the parts marked **.
Starting at the top:
(1) The Eyepiece Lens that you look into.
(2) The eyepiece Tube.
(3) The eyepiece Rotating Head **.
(4) The objective Revolving Turret** or Revolving Nosepiece**.
(5) Objective Lens (may be more than one)
(6) Stage.
(7) Stage Clips.
(8) Stage Condenser Lens**.
(9) Stage Light Diaphragm**.
(10) Light Source (may be simply a mirror).
Structural pieces:
(11) Support Arm.
(12) Base.
Focus mechanism: This consists of
(13) a moveable Rack driven by
(14) a focusing Gear operated by two knobs for
(15) Coarse Focus and
(16) Fine Focus. There may be a focus mechanism for the optical tube, for the specimen stage, or for both.
DETAILED Parts of a COMPOUND MICROSCOPE:Eyepiece Lens: the lens at the top that you look through. They are usually 10X or 15X power.
Tube: Connects the eyepiece to the objective lenses
Arm: Supports the tube and connects it to the base
Base: The bottom of the microscope, used for support
Illuminator: A steady light source (110 volts) used in place of a mirror. If your microscope has a mirror, it is used to reflect light from an external light source up through the bottom of the stage.
Stage: The flat platform where you place your slides. Stage clips hold the slides in place. If your microscope has a mechanical stage, you will be able to move the slide around by turning two knobs. One moves it left and right, the other moves it up and down.
Revolving Nosepiece or Turret: This is the part that holds two or more objective lenses and can be rotated to easily change power.
Objective Lenses: Usually you will find 3 or 4 objective lenses on a microscope. They almost always consist of 4X, 10X, 40X and 100X powers. When coupled with a 10X (most common) eyepiece lens, we get total magnifications of 40X (4X times 10X), 100X , 400X and 1000X. To have good resolution at 1000X, you will need a relatively sophisticated microscope with an Abbe condenser. The shortest lens is the lowest power, the longest one is the lens with the greatest power. Lenses are color coded and if built to DIN standards are interchangeable between microscopes. The high power objective lenses are retractable (i.e. 40XR). This means that if they hit a slide, the end of the lens will push in (spring loaded) thereby protecting the lens and the slide. All quality microscopes have achromatic, parcentered, parfocal lenses.
Rack Stop: This is an adjustment that determines how close the objective lens can get to the slide. It is set at the factory and keeps students from cranking the high power objective lens down into the slide and breaking things. You would only need to adjust this if you were using very thin slides and you weren't able to focus on the specimen at high power. (Tip: If you are using thin slides and can't focus, rather than adjust the rack stop, place a clear glass slide under the original slide to raise it a bit higher)
Condenser Lens: The purpose of the condenser lens is to focus the light onto the specimen. Condenser lenses are most useful at the highest powers (400X and above). Microscopes with in stage condenser lenses render a sharper image than those with no lens (at 400X). If your microscope has a maximum power of 400X, you will get the maximum benefit by using a condenser lenses rated at 0.65 NA or greater. 0.65 NA condenser lenses may be mounted in the stage and work quite well. A big advantage to a stage mounted lens is that there is one less focusing item to deal with. If you go to 1000X then you should have a focusable condenser lens with an N.A. of 1.25 or greater. Most 1000X microscopes use 1.25 Abbe condenser lens systems. The Abbe condenser lens can be moved up and down. It is set very close to the slide at 1000X and moved further away at the lower powers.
Diaphragm or Iris: Many microscopes have a rotating disk under the stage. This diaphragm has different sized holes and is used to vary the intensity and size of the cone of light that is projected upward into the slide. There is no set rule regarding which setting to use for a particular power. Rather, the setting is a function of the transparency of the specimen, the degree of contrast you desire and the particular objective lens in use.
I. Illuminating part(s)
condenser
illuminator
diaphragm
II. Magnifying part(s)
Objectives: LPO - 10x
HPO - 40x / 60X
OIO - oil immersion objctive - 100x
III. Mechanical part(s)
arm
base
body tube
stage
rack stop
focusing knobs (fine adjusmnt and coarse adjustment)
dust shield
revolving nosepiece
inclination joint... piece,condenser,specimen
OBJECTIVE:low,medium, and high magnification
STAGE CLIP:holds light in place
STAGE:supports specimen in correct location for lens
LIGHT:helps you see
Base:bottom of the microscope that allows the microscope to rest
OCULAR LENS:helps you see the specimen closer
ARM:supports the microscope when it is carried
DIAPHRAGM:regulates the amount of light
COURSE ADJUSTMENT KNOB:moves the stage
FINE ADJUSTMENT KNOB:focusing microscope
There are actually FOUR main parts of a compound light microscope instead of three. These four main parts are the Arm, the Head, the Base, and the Stage.
tae!wala di ko rin alm buwisit!
3 MAJOR PARTS OF THE MICROSCOPE
ewan ko/ putang ina niyo
Mirror , eyepiece , slide, lens, arm
Light microscopes allow you to view living specimens and electron microscopes do not allow this.
a6
Yes, electron microscopes have a much higher possible magnification than compound light microscopes. An electron microscope is capable of 10,000,000 times magnification, whereas a good compound light microscope is capable of 1,000 - 2,000 times magnification.
light
There are 17 parts of a microscopes.
Light microscopes allow you to view living specimens and electron microscopes do not allow this.
Light Microscopes And Electron Microscopes
Light Microscopes And Electron Microscopes
light microscopes and electron microscopes
Microscopes produce images by focusing light rays or beams of electrons. An instrument used to separate cell parts according to density is the centrifuge.
One place you can find parts to repair microscopes is at http://www.microscopesfromnightingale.com/. They have parts for a number of different brands of microscopes in addition to the microscopes they sell and they also offer to do repairs for you.
Light microscopes are called compound because a light microscope has more than one lense.
a6
Light microscopes use light zo you can see close up but they are not as powerful. Electron microscopes use of coarse electrons and thats when you see the really close up of cells.
Light microscopes use light zo you can see close up but they are not as powerful. Electron microscopes use of coarse electrons and thats when you see the really close up of cells.
Excepting that glasses, metals and plastics are themselves chemicals, microscopes do not have chemical parts.
The light intensity knob is found on light microscopes and allows you to change the intensity of the light on the sample. Different light intensities allow you to view different parts more clearly.