Having been constructed in the 16th Century, microscopes have revolutionized science with their ability to magnify small objects such as microbial cells, producing images with definitive structures that are identifiable and characterizable.
Derived from Greek words “mikrós” meaning “small” and “skópéō” meaning “look at”.
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What are Microscopes?
Microscopes are instruments that are used in science laboratories to visualize very minute objects, such as cells and microorganisms, giving a contrasting image that is magnified.
Microscopes are made up of lenses for magnification, each with its own magnification powers. Depending on the type of lens, it will magnify the specimen according to its focal strength.
Their ability to function is because they have been constructed with special components that enable them to achieve high magnification levels. They can view very small specimens and distinguish their structural differences, for example, the view of animal and plant cells viewing microscopic bacterial cells.
There are different types of microscopes like light microscope, dark-field microscope, phase contrast microscope, electron microscope, fluorescent microscope, etc.
Microscopes are generally made up of structural parts for holding and supporting the microscope and its components and the optical parts that are used for magnification and viewing of the specimen images. Modern microscopes have additional electronics and display devices. This description defines the parts of a microscope and the functions they perform to enable the visualization of specimens.
Structural parts of a microscope and their functions
There are three structural parts of the microscope i.e. head, arm, and base.
- Head – The head is a cylindrical metallic tube that holds the eyepiece lens at one end and connects to the nose piece at other end. It is also called a body tube or eyepiece tube. It connects the eyepiece lens to the objective lens. The light coming from objectives will bend inside this tube. In binocular microscopes, they are adjustable so that the viewer can adjust the eyepiece for maximum visualization.
- Arm – This is the part connecting the base to the head and the eyepiece tube to the base of the microscope. It supports the head of the microscope and is also used when carrying the microscope. Some high-quality microscopes have an articulated arm with more than one joint, allowing more movement of the microscopic head for better viewing.
- Base – The base is the lowermost part of the microscope that supports the entire microscope structure. It provides stability for the microscope. Illuminators, light switches, and electrical wiring systems are fitted in the base.
Optical parts of a microscope and their functions
The optical parts of the microscope are used to view, magnify, and produce an image from a specimen placed on a slide. These parts include:
- Eyepiece – The eyepiece (ocular Lens) is closest to the viewer’s eye. They are located at the top of the microscope. This part is used to look at the specimen. These lenses come in different magnification powers from 5X to 30X, but the most common ocular lenses are of 10X or 15X magnification. They magnify the image for the second time.
- Eyepiece tube – It’s the eyepiece holder. It carries the eyepiece just above the objective lens. In some microscopes, such as the binoculars, the eyepiece tube is flexible and can be rotated for maximum visualization for variance in distance. For monocular microscopes, they are none flexible.
- Diopter Adjustment – Diopter Adjustment is a control knob present only in the binocular microscope that is used to change focus on one eyepiece. It is used to correct any difference in vision and compensate for the differences in vision between the viewer’s two eyes.
- Nose piece – A nose piece is a movable circular structure that houses all the objective lenses. It is also called the revolving turret. It is connected to the body tube and lies just above the stage. It can be rotated clockwise or counterclockwise to increase or decrease the magnification. The change in magnification results due to a change in the objective lens.
- Objective lenses – The objective lens is the lens that is closest to the specimen. They are fitted on the nosepiece. A standard microscope has 3 to 4 objective lenses of different magnifying powers: 4X, 10X, 40X, and 100X. The objective lenses first receive the light transmitted from the specimen and magnify the image for the first time. Objective lenses are color-coded and are of different sizes. Size and color depend on the power of the lens. The smallest lens is of the lowest power, and gradually, the longest will be of the highest power. The high power lenses i.e. 40X and 100X, are retractable, i.e., their end can be pushed inward. In most optical microscopes, objective lenses with 100X or more magnification are of oil immersion type.
- The Adjustment knobs – Adjustment Knobs are the control knobs used to focus the microscope on the specimen. These knobs are of two types;
a. Fine Adjustment Knob: Fine Adjustment Knob is used for fine adjustment. It is a smaller knob and is used to move the stage up or down very slowly. The stage covers a very small distance on each rotation of the fine adjustment knob. It is used to sharpen the image. It is mostly used while viewing under high power.
b. Coarse Adjustment Knob: Coarse Adjustment Knob is used for focusing the image under low power magnification. It is a larger knob and is used to move the stage up or down very rapidly. The stage is raised or lowered rapidly with the help of a coarse adjustment knob. - Stage – This is the section in which the specimen is placed for viewing. They have stage clips that hold the specimen slides in place. The most common stage is the mechanical stage, which allows the control of the slides by moving the slides using the mechanical knobs on the stage instead of moving them manually.
- Stage Control Knobs – Stage Control Knobs are the control knobs used to move the stage mechanically. There are two knobs; one for moving left and right and the other for moving forward and backward. This will move the slide in the field of vision.
- Aperture – This is a hole in the microscope stage through which the transmitted light from the source reaches the stage.
- Microscopic illuminator – A microscopic illuminator is a light source. In some compound microscopes, a mirror, which reflects the light from an external source to the sample, is used. In other optical microscopes, different electric bulbs of low voltages are used as a constant light source. Commonly used illuminators are tungsten-halogen lamps, 75-150W Xenon lamps, tin-halide lamps, mercury vapor lamps, etc. The selection of types of bulbs is based on the requirement of intensity and wavelength for illumination.
- Condenser – These are lenses that are used to collect and focus light from the illuminator into the specimen. They are found under the stage next to the diaphragm of the microscope. They play a major role in ensuring clear, sharp images are produced with a high magnification of 400X and above. The higher the magnification of the condenser, the clearer the image. More sophisticated microscopes come with an Abbe condenser that has a high magnification of about 1000X.
- Diaphragm – It’s also known as the iris. It is found under the stage of the microscope, and its primary role is to control the amount of light that reaches the specimen. It’s an adjustable apparatus, hence controlling the light intensity and the size of the beam of light that gets to the specimen. For high-quality microscopes, the diaphragm comes attached with an Abbe condenser, and combined, they are able to control the light focus and light intensity that reaches the specimen.
- Condenser focus knob – This is a knob that moves the condenser up or down, thus controlling the focus of light on the specimen.
- Abbe Condenser – This condenser specially designed for high-quality microscopes makes the condenser movable and allows very high magnification above 400X. High-quality microscopes normally have a higher numerical aperture than objective lenses.
- The rack stop – It controls how far the stages should go, preventing the objective lens from getting too close to the specimen slide, which may damage the specimen. It is responsible for preventing the specimen slide from coming too far up and hitting the objective lens.
- Light Switch – Light Switch is an electrical control device. Light switches are used to on and off the illuminator.
- Brightness Adjustment – The brightness adjustment system controls the voltage supplied to the light bulb, controlling the intensity (brightness) of the light bulb.
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How Does Microscope Work?
In a simple light microscope, a thin specimen containing a slide is placed on the microscope’s stage.
A beam of light is passed through the condenser to the specimen. The light transmitted from the specimen enters the objective lens. While passing through the objectives, the transmitted rays are spread so that they appear to come from the bigger objects.
The light is then focused on the eyepiece lens. This lens further magnifies the pre-magnified image coming from the objectives.
Finally, a highly magnified image can be observed.
Parts of a Microscope Revision Questions (FAQs)
Q. Define a Microscope.
Ans. A microscope is an optical instrument with one or more lens systems that are used to get a clear, magnified image of minute objects or structures that can’t be viewed by the naked eye.
Q. State functions of a microscope.
Ans. A microscope is usually used for the study of microscopic algae, fungi, and biological specimens.
Q. Diagrammatically, identify the various parts of a microscope.
Q. Describe the functions of each part of the microscope you have drawn above.
Q. Differentiate between a condenser and an Abbe condenser.
Ans. Condensers are lenses that are used to collect and focus light from the illuminator into the specimen. They are found under the stage next to the diaphragm of the microscope. They play a major role in ensuring clear sharp images are produced with a high magnification of 400X and above. Abbe condenser is a condenser specially designed for high-quality microscopes, which makes the condenser to be movable and allows very high magnification of above 400X. High-quality microscopes normally have a high numerical aperture than objective lenses.
Q. What is the magnification power of the objective lenses?
Ans. Objective lenses have a magnification power of 40X to 100X.
Q. How does the eyepiece compare to the objective lens?
Ans. The eyepiece, also known as the ocular is the part used to look through the microscope. Its found at the top of the microscope. Its standard magnification is 10x with an optional eyepiece having magnifications from 5X – 30X. Objective Lens are the major lenses used for specimen visualization. They have a magnification power of 40x-100x. There are about 1- 4 objective lenses placed on one microscope, in that some are rare facing and others face forward.
Q. Why is the rack stop included in the microscope from the factory, and can it be replaced?
Ans. Rack stop is included in the microscope for preventing the specimen slide from coming too far up and hitting the objective lens.
Q. What is a magnification power?
Ans. The magnification of a lens is defined as the ratio of the height of an image to the height of an object. Microscope magnification measures the total enlargement of the image of an object. Magnification power is the product of eyepiece lens power and objective lens power.
Q. Differentiate between the fine and the coarse adjustment knobs.
Ans. The coarse adjustment knob moves the stage up and down to bring the specimen into focus. The fine adjustment knob brings the specimen into sharp focus under low power and is used for all focusing when using high-power lenses.
Q. List down the 18 parts of a microscope.
1. Ocular Lens (Eye Piece)
2. Diopter Adjustment
3. Head
4. Nose Piece
5. Objective Lens
6. Arm (Carrying Handle)
7. Mechanical Stage
8. Stage Clip
9. Aperture
10. Diaphragm
11. Condenser
12. Coarse Adjustment
13. Fine Adjustment
14. Illuminator (Light Source)
15. Stage Controls
16. Base
17. Brightness Adjustment
18. Light Switch
Q. List down the three structural parts of a microscope.
Q. List down the 17 parts of a microscope.
1. Illuminator (Light Source)
2. Diaphragm (Iris)
3. Condenser
4. Condenser Focus Knob
5. Rack Stop
6. Stage
7. Stage Control Knobs
8. Nose Piece
9. Objective Lens
10. Tube (Head)
11. Eyepiece (Ocular Lens)
12. Diopter Adjustment
13. Adjustment Knobs (Fine Adjustment Knob and Coarse Adjustment Knob)
14. Arm
15. Base
16. Light Switch
17. Brightness Adjustment
References
- Microbiology by Lansing M. Prescott (5th Edition)
- https://www.pobschools.org/cms/lib/NY01001456/Centricity/Domain/349/TheMicroscope-howtouse.pdf
- https://sciencing.com/parts-microscope-uses-7431114.html
- https://www.amscope.com/microscope-parts-and-functions/
- https://cpb-us-e1.wpmucdn.com/cobblearning.net/dist/3/4204/files/2018/08/Parts-of-the-Microscope-103b21p.pdf
- https://www.microscope.com/compound-microscope-parts
- microscope | Types, Parts, History, Diagram, & Facts | BritannicaParts of the Microscope with Labeling (also Free Printouts) – Laboratoryinfo.com
- Parts of a Microscope – The Comprehensive Guide – Microscope and Laboratory Equipment Reviews (microscopespot.com)
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- DARK FIELD MICROSCOPE: CHARACTERISTICS, PARTS, FUNCTIONS – SCIENCE (warbletoncouncil.org)
- Dissecting Stereo Microscope Parts and Functions (microscopemaster.com)
- Confocal Microscope Principle, Uses, Parts, Advantages, and Disadvantages. (microbiologynote.com)
- Inverted microscope Images and definition, principle, Uses, Parts. (microbiologynote.com)
- USB Microscope- definition, principle, parts, examples, uses.docx – USB Microscope- definition, principle, parts, examples, uses March 26, 2020 by Faith | Course Hero