BGH

1. 1
By
KAUSHAL KUMAR SAHU
Assistant Professor (Ad Hoc)
Department of Biotechnology
Govt. DigvijayAutonomous P. G. College
Raj-Nandgaon ( C. G. )

2. Introduction
History
Basic Component of Microscope
Light Microscopy
Types of Light Microscopy
What Are Bright Microscopy
Principle of Bright Microscope
Advantage
Disadvantage
Application
Conclusion
Reference
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3. Originated from Greek word
Micros=small, scopien= to watch
Generally human eye feels difficulty in seeing an
object smaller then 1mm; therefore the microscope
is used to observe smaller then this size.
Microscopy plays a critical role in a majority of life
sciences.
Microscopes have contributed significantly in the
fields of cell biology and histology where great
discoveries have been made over the years.
The discovery of blood cells in the human body
paved the way for advanced studies in cell biology
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4. Hans and Zacharias Jansser(1590)
First compound microscope (2 lenses),tube
with lenses at each end.
Antonie Van Leeuwenhoek (1632-
1723)
Simple microscope (1lenses)
Discovered microorganism and spermatozoa.
Robert Hooke(1635-1703)
Compound microscope improvement(two
lenses, objective and ocular lenses).
Coined the biological term cell.
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5. Depending on number of lenses
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Simple microscope- uses a single lens to magnify an
object and cannot reach high magnification.
Compound microscope-use two sets of lenses - an
objective lens and an eyepiece - to produce images
Depending on number of eyepiece
Monocular microscope- microscopes have one
eyepiece.
Binocular microscope- microscopes have two
eyepieces and reduce eye strain.
Depending on source
Light microscope
Electron microscope

6. Light microscope are simplest of all microscope.
A light microscope uses focused light and lenses to
magnify a specimen, usually a cell.
Most cells (bacterial or otherwise) are both small
and transparent, and so light can easily pass through
them.
A light microscope is much like a telescope, except
that instead of the object being very large and very
far away; it is very small and very close to the lens.
Great importance in the study of microorganisms and
biomolecules.
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7. Bright-field microscope- color-
stained, high –contrast sample.
Dark-field microscope- find
structure and tiny sample in dark
background.
Phase-contrast- low-contrast,
transparent sample.
Differential interference
contrast- low-contrast sample,
for surface observation.
Bright-field
microscope
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Dark-field
microscope
Phase-
contrast

8. Dark sample on a bright background.
In bright-field microscopy, the sample illumination is
transmitted white light and contrast in sample is
caused by absorbance of some of the transmitted
light in dense areas of the sample and this contrast
allows us to see the specimen.
High-contrast sample.
Staining is often required to increase contrast.
Bright-field illumination is useful for samples which
have an intrinsic color, for example chloroplasts in
plant cells.
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9. Algae with visible
cells
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10. Mechanical part
• Base- support the microscope.
•Arm- joins the body tube and base.
•Body tube (Head)- connects the eyepiece to the
objective lenses
•Nosepiece: A rotating turret that houses the
objective lenses. The viewer spins the nosepiece to
select different objective lenses.
•Stage: The flat platform where the slide is placed.
•Coarse adjustment: Brings the specimen into
general focus.
•Fine adjustment: Fine tunes the focus and
increases the detail of the specimen
Optical parts-
•Eyepiece: The lens the viewer looks
through to see the specimen. The eyepiece
usually contains a 10X or 15X power lens.
•Objective lenses: they are the lenses
closest to the specimen.
•Iris diaphragm: Adjusts the amount of
light that reaches the specimen.
•Condenser: Gathers and focuses light
from the illuminator onto the specimen
being viewed.
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11. It has a series of two lenses;
(i)the objective lens close to the object to be
observed and
(ii)the ocular lens or eyepiece, through which the
image is viewed by eye.
Light from a light source (electric lamp) passes
through a thin transparent object.
The objective lens produces a magnified ‘real image’
first image) of the object. This image is again
magnified by the ocular lens (eyepiece) to obtain a
magnified ‘virtual image’ (final image), which can be
seen by eye through the eyepiece.
As light passes directly from the source to the eye
through the two lenses, the field of vision is brightly
illuminated. That is why; it is a bright-field
microscope.
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14. Sample
• Stained-bacteria
• Thick tissue
sections
• Blood smears
• Negative stained
bacteria
• Algae and other
microscope plant
material
Magnification
• 1000×
• 1OOx,4OOx
• 100x,400x
• 400x,1000x
• 400x,1000x
• 40x,100x,400x
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15. Although a basic method of microscopy,
bright field as a technique is well suited
to mating with new technologies.
Digital imaging systems can make high
resolution images of properly stained
microorganisms using this technique.
Three-dimensional imaging accessories
can be used with the bright field
method and newer technologies will
allow real time viewing in 3D.
Also suited to video imaging, this
enhancement will allow the user to view
motile organisms interacting with their
environment.
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16. Bright field microscopy is very simple to use
with fewer adjustments needed to be made
to view specimens.
Some specimens can be viewed without
staining and the optics used in the bright
field technique don’t alter the color of the
specimen.
It is adaptable with new technology and
optional pieces of equipment can be
implemented with bright field illumination to
give versatility in the tasks it can perform.
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17. Very low contrast of most biological samples.
The practical limit to magnification with a
light microscope is around 1300X. Although
higher magnifications are possible, it
becomes increasingly difficult to maintain
image clarity as the magnification increases.
Samples that are naturally colorless and
transparent cannot be seen well, e.g. many
types of mammalian cells. These samples
often have to be stained before viewing.
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18. Widely use in pathology to view fixed tissue
sections or cell films/smears.
Important for hematology, microbiology, TB and
malaria testing. Microscope magnifies the blood
samples, so, the doctor can see the malaria
parasites attacking the red blood cells.
Used in bacteriology, biology and medicine to
examine minute objects such as bacteria, other
unicellular organisms and plant and animal cells
and tissue.
Advances in flurochrome stains and monoclonal
antibody techniques caused growth in use of
analysis and cell biology.
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19. In conclusion, it is safe to say that microscopes have
played a central part in life sciences.
This has positively contributed to the enhancement
of quality of life since a lot of discoveries directly
contributed to the development of drugs and cures
used in the treatment of diseases and conditions that
were previously misunderstood or not well
understood.
A cell is the single unit of life, and to understand and
study it, the microscope is necessary.
The discovery of cells and genes were major
milestones in the medical sciences and were a great
influence to the development of new effective cures
and a reduction of mortality cases among
populations.
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20. Cell and Molecular Biology,6th Edition- Gerald
Karp
Internet
www.ruf.rice.edu/~bioslabs/methods/microscop
y/microscopy.htm
https://www.microscopemaster.com/life-
sciences.html
http://www.open.edu/openlearn/science-
maths-technology/science/biology/introduction-
microscopy/content-section-7
http://www.ruf.rice.edu/~bioslabs/methods/mi
croscopy/microscopy.html
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