introduction to the oil immersion compound microscope
DESCRIPTION
Introduction to the oil immersion compound microscope. Purpose of microscope. Microscopy is the technology of making very small things visible to the human eye. Used in the diagnosis of many diseases. Used for soil, insects and rocks. Used in pathological laboratories and medical. - PowerPoint PPT PresentationTRANSCRIPT
Introduction to the oil immersion compound microscope
Purpose of microscope
Microscopy is the technology of making very small things visible to the human eye.
Used in the diagnosis of many diseases.
Used for soil, insects and rocks.
Used in pathological laboratories and medical.
Industrial microscope : Used for metals and various kinds of measurement .
Educational microscope.
Used for research.
Purpose of microscope in Microbiology
Bacteria is one of the small microorganisms that can’t be seen with the naked eyes, most bacteria range in size between 0.5-2.0 micrometers (μm) so, there is a need to magnify the bacteria several times by using a microscope in order to see it.
There are different types of microscopes which are used in microbial life.
In this lab, you will become familiar with the use of the light compound microscope (particularly oil immersion microscopy) and will compare the relative size and shape of various microorganisms.
Basic component of microscope
Microscope consists of 4 main parts:
frame work.
Adjustment system.
Magnification.
Lighting System.
Frame work
Its includes three parts:
1. Base
2. Arm
3. mechanical stage
Mechanical Stage
Stage- the location of the specimen to be viewed
Clips- utilized in holding the specimen in place
Stage Knobs control
Adjustment system
It consists of the following parts:
1. Optical tube.
2. Coarse adjustment.
3. Fine adjustment.
Focus and Resolution Parts
Course-adjustment knob- is the larger of the two knobs. It is used in bringing the object into quick focus.
Fine-adjustment knob- is used for improving the clarity of the image, especially when viewing under high power.
Interpupillary adjustment
To control the distance between the ocular lenses to adapt the distance between viewers eyes so, the eyepiece lenses will spread apart or get closer together to fit each individual.
Diopter ring adjustment
Getting in FocusGetting in Focus
Magnification
Microscope has two sets of lenses are :
1. Ocular lens (eyepiece).
2. Objetive lenes.
Ocular lens or eyepiece is used for viewing.
Revolving nosepiece contains objective lenses that are used to magnify the image in combination with the ocular lens.
- The objective of microscopy is not just to increase magnification, but to do so while retaining sufficient resolution.
Microscope lenses:
TOTAL MAGNIFICATION
Total magnifigation:Powers of the eyepiece
(10X) multiplied by objective lenses determine total magnification.
Depth of focus: thickness of the field; as magnification increased ,
depth of focus is decreased.
Field of vision: the surface area of view; as magnification increased ,
the area of view decreased.
Oil immersion lens
Refraction and Refractive Index Refraction = bending.
Refractive index: measurement of the extent that the substance bend light.
Field of view > or equal 500X cause increase in diffraction due to1. the differences in refractive index between glass and lenses
(1.51) and air (1) which increase refraction,2. and small lenses present in high magnification3. so that oil is used in these lenses as it has refractive index
similar to glass, lenses and specimen which equal 1.51 ,as a result the distortion will decrease.
Resolution
• The objective of microscopy is not just to increase magnification, but to do so while retaining sufficient resolution.
• Resolution: It is the ability of microscope, at specific magnification to distinguish two separate objects situated close to one another and the ability of the lens to reveal fine details.
• The smaller the distance between the two specific objects that can be distinguished apart, the greater the resolution power of the microscope.
As magnification increased the resolution also increased.
To achieve high magnification with good resolution the objective lens must be small.
Shorter wavelengths of light provide greater resolution. Under the best conditions, with violet light (wavelength = 0.4
um) and a numerical aperture of 1.4, the light microscope can theoretically achieve a limit of resolution of just under 0.2 pm.
A typical cell is10-20 um
Light microscopesees 0.2 um
1 um=10-6 m
1 mm=10-3 m
1 nm=10-9 m
1 A=Angstrom=10-10 m
Numerical Aperture
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.
Lighting System:
Lighting system consists of modern microscopes of the
following parts: i. Power supply ii. Transformer iii. Variable resistance iv. light source v. sub stage condenser vi. Aperture diaphragm
Lighting System:
The Condenser (fucous light through specimen )
Lamp- typically a light source underneath the stage
Diaphragm- controls the amount of
light allowed to pass through the specimen
How to use Microscope1. Plug in microscope and turn on illuminator. Rotate nosepiece to
lock 4X objective in place2. Place smear on stage and center it under the 4X objective.
3. Using the course adjustment knob, move the objective lens to its lowest point. Look through the ocular and focus upward with the coarse adjustment until an image comes into view.
4. Rotate nosepiece to obtain the next objective lens 10x and repeat step 3.
5. Rotate nosepiece to obtain the next objective lens 40x .6. Look through the ocular and focus upward with the fine
adjustment until an image comes into view.7. When using oil immersion lens put a drop of oil on the slide and
Rotate nosepiece and repeat step 6.
Factors that influence the quality and size of image::
Quality of Microscope and lenses.
Size of sample.
Type of sample.
Amount of light on the sample.
Quality of sample.
Microscope Maintenance
Microscope Storage Proper storage of the microscope will prevent or reduce
problems! Optics and mechanisms of the microscope must be protected
from: Dust and dirt, Fungus.
Store the microscope: Under a protective cover, In a low humidity environment.
Always carry a microscope with one hand holding the arm and one hand under the base.
Microscope Cleaning Process
Cleaning the Eyepiece,
Cleaning the Objectives,
Cleaning the Microscope Stage,
Cleaning the Microscope Body,
Cleaning the Condenser.
Cleaning Solutions and Solvents
Soap solution for cleaning of body and stage.
Ether-Alcohol, Alcohol, or Lens Cleaner Solution for cleaning of lenses.
Refer to manufacturer’s guide for appropriate organic solvent.
Cleaning Materials Lint-free cotton gauze pads Lint-free cotton swabs Lens paper Commercial lens tissue for optics Commercial lens tissue for optics Caution: Do not use paper Caution: Do not use paper
towels or other rough paper towels or other rough paper productsproducts Alternatives include:
Fine quality tissue paper Muslin cloth Silk
Microscope Cleaning Process
Cleaning the Eyepiece,
Cleaning the Objectives,
Cleaning the Microscope Stage,
Cleaning the Microscope Body,
Cleaning the Condenser.
Step 1: Cleaning the Eyepieces
• Blow to remove dust before wiping lens.
• Clean the eyepieces with a cotton swab moistened with lens cleaning solution.
• Clean in a circular motion inside out.
Step 2: Cleaning the Eyepiece
• Wipe the eyepieces dry with lens paper.
• Repeat cleaning and drying if required.
Step 3:Cleaning the Objectives
Objectives are cleaned while attached to microscope Moisten the lens paper with the cleaning solution Wipe gently the objective in circular motion from
inside out Wipe with dry tissue or lens cleaning paper . Be sure to clean the oil immersion objective after
use. Objectives should never be removed from the
nosepiece.
Step 4: Cleaning the Microscope Stage
• Wipe the microscope stage using the cleaning solution on a soft cloth.
• Thoroughly dry the stage.
• Repeat above steps, if required.
Step 6: Cleaning the Condenser
• Unplug the microscope from power source.
• Clean the condenser lens and auxiliary lens using lint-free cotton swabs moistened with lens cleaning solution.
• Wipe with dry swabs.
Step 5: Cleaning the Microscope Body
i. Unplug the microscope from power source.
ii. Moisten the cotton pad with a mild cleaning agent .
iii. Wipe the microscope body to remove dust, dirt, and oil.
iv. Repeat steps 1–3, if required.
Video on how to use Microscope