SlideShare a Scribd company logo

Introduction to microscope

Download as PPTX, PDF
T
TasmiaZeb1

BASICS OF MICROSCOPE

Science
1 of 21
MICROBIOLOGY TOPIC :MICROSCOPE PRESENTEB BY:MISS TASMIA ZEB
TERMS AND DEFINITIONS Principle Microscopy is to get a magnified image, in which structures may be resolved which could not be resolved with the help of an unaided eye. Magnification • It is the ratio of the size of an object seen under microscope to the actual size observed with unaided eye. • The total magnification of microscope is calculated by multiplying the magnifying power of the objective lens by that of eye piece. Resolving power • It is the ability to differentiate two close points as separate. • The resolving power of human eye is 0.25 mm • The light microscope can separate dots that are 0.25µm apart. • The electron microscope can separate dots that are 0.5nmapart.
TERMS AND DEFINITIONS Limit of resolution It is the minimum distance between two points to identify them separately. It is calculated by Abbé equation. Limit of resolution is inversely proportional to power or resolution. If the wavelength is shorter then the resolution will be greater. Working distance • It is the distance between the objective and the objective slide. • The working distance decreases with increasing magnification.
TERMS AND DEFINITIONS Numerical aperture(NA) The numerical aperture of a lens is the ratio of the diameter ofthe lens to its focal length. NA of a lens is an index of the resolvingpower. NA can be decreased by decreasing the amount of light that passesthrough a lens. Diameter of the lens
Light microscope • In 1590 F.H Janssen & Z.Janssen constructed the first simple compound light microscope. • In 1665 Robert Hooke developed a first laboratory compound microscope. • Later, Kepler and galileo developed a modern class room microscope. • In 1672 Leeuwenhoek developed a first simple microscope with a magnification of 200x – 300x. • He is called as Father of microscopy. • The term microscope was coined by Faber in 1623.
Light microscope Parts of microscope • Illuminator - This is the light source located below the specimen. • Condenser - Focuses the ray of light through the specimen. • Stage - The fixed stage is a horizontal platform that holds the specimen. • Objective - The lens that is directly above the stage. • Nosepiece - The portion of the body that holds the objectives over the stage. • Iris diaphragm - Regulates the amount of light into the condenser. • Base – Base supports the microscope which is horseshoe shaped. • Coarse focusing knob - Used to make relatively wide focusing adjustments to the microscope. • Fine focusing knob - Used to make relatively small adjustments to the microscope. • Body - The microscope body. • Ocular eyepiece - Lens on the top of the body tube. It has a magnification of 10× normal vision.
Light microscope Objective PROPERTY LOW POWER HIGH POWER OIL IMMERSION Magnification of objective 10x 40-45x 90-100x Magnification of 10x 10x 10x eyepiece Total magnification 100x 450 – 450x 900 – 1000x Numerical aperture 0.25 – 0.30 0.55 – 0.65 1.25 – 1.4 Mirror used Concave Concave Plane Focal length (Approx) 16 mm 4 mm 1.8 – 2 mm Working distance 4 – 8 mm 0.5 – 0.7 mm 0.1 mm Iris diaphragm Partially closed Partially opened Fully opened Position of condenser Lowest Slightly raised Fully raised Maximum resolution(Appro 0.9 µm 0.35µm 0.18µm
Dark field microscope Parameciu m Treponema vincenti Volvox and
Phase contrast microscope Macronucleus Micronucleus Paramecium
Phase contrast microscope Rhodospirillum rubrum
Fluorescence microscope It was developed by Haitinger and coons A fluorescence microscope differs from an ordinary brightfield microscope in several respects. It utilizes a powerful mercury vapor arc lamp for its light source. A darkfield condenser is usually used in place of the conventional Abbé brightfield condenser. It employs three sets of filters to alter the light that passes up through the instrument to the eye. Microbiological speciemen that is to be studied must be coated with special compounds that possess the quality of fluorescence. Such compounds are called fluorochromes. AuramineO, acridine orange, and fluorescein are well-known fluorochromes.
Uses: It is used to study the substance like chlorophylls, riboflavin, vitamin A, collagen which have the property of auto fluorescence. Some cellular components like cellulose, starch, glycogen, protein and Y chromosome can be made visible under this microscope by staining them with fluorochromes. It used to identify Y chromosome to determine sex, determination of microbial cells in the infected tissue and to study the structure of proteins. Fluorescence microscope
Fluorescence microscope Oral cavity Bacillus subtilis
Electron microscope In 1932 Knoll and Ruska invented first electron microscope. The electron microscope uses a beam of electrons rather than visible light. The magnified image is visible on a fluorescent screen and can be recorded on a photographic film. The drawback of the electron microscope is specimen are killed in order to view the cells or organisms. Images produced by electrons lack color, electron micrographs are always shades of black, gray, and white. Two general forms of EM are the transmission electron microscope (TEM) and the scanning electron microscope (SEM). Transmission electron microscopes are the method of choice for viewing the detailed structure of cells and viruses. This microscope produces its image by transmitting electrons through the specimen. Because electrons cannot readily penetrate thick preparations, the specimen must be sectioned into extremely thin slices (20–100 nm thick) and stained or coated with metals that will increase image contrast. The darkest areas of TEM micrographs represent the thicker (denser) parts, and the lighter areas indicate the more transparent and less dense parts.
Electron microscope(TEM)
Electron microscope(TEM) Chlamydomonas
Electron microscope(SEM) The specimen is placed in the vacuum chamber and covered with a thin coat of gold. The electron beam then scans across the specimen and knocks loose showers of electrons that are captured by a detector. An image builds line by line, as in a television receiver. Electrons that strike a sloping surface yield fewer electrons, thereby producing a darker contrasting spot and a sense of three dimensions. The resolving power of the conventional SEM is about 10 nm and magnifications with the SEM are limited to about 20,000x.
Electron microscope(SEM) Parameciu m SE
Light Vs Electron microscope
Uses
THANK YOU

Recommended

Scanning electron microscopy (sem)
Scanning electron microscopy (sem)Scanning electron microscopy (sem)
Scanning electron microscopy (sem)Sivasangari Shanmugam
 
Microscope and its types
Microscope and its typesMicroscope and its types
Microscope and its typesKetan Patil
 
Nmr spectroscopy
Nmr spectroscopyNmr spectroscopy
Nmr spectroscopyPrashantSharma807
 
Microscopes
MicroscopesMicroscopes
MicroscopesKottakkal farook arts and science college
 
Confocal microscopy
Confocal microscopyConfocal microscopy
Confocal microscopyMahesh Lamsal
 
Electron microscope
Electron microscopeElectron microscope
Electron microscopeFizza Khan
 
Raman spectroscopy
Raman spectroscopyRaman spectroscopy
Raman spectroscopyvaishu r
 
Fluorescence Microscopy
Fluorescence MicroscopyFluorescence Microscopy
Fluorescence MicroscopyUniversity of Allahabad
 

Recommended

Scanning electron microscopy (sem)
Scanning electron microscopy (sem)Scanning electron microscopy (sem)
Scanning electron microscopy (sem)Sivasangari Shanmugam
 
Microscope and its types
Microscope and its typesMicroscope and its types
Microscope and its typesKetan Patil
 
Nmr spectroscopy
Nmr spectroscopyNmr spectroscopy
Nmr spectroscopyPrashantSharma807
 
Microscopes
MicroscopesMicroscopes
MicroscopesKottakkal farook arts and science college
 
Confocal microscopy
Confocal microscopyConfocal microscopy
Confocal microscopyMahesh Lamsal
 
Electron microscope
Electron microscopeElectron microscope
Electron microscopeFizza Khan
 
Raman spectroscopy
Raman spectroscopyRaman spectroscopy
Raman spectroscopyvaishu r
 
Fluorescence Microscopy
Fluorescence MicroscopyFluorescence Microscopy
Fluorescence MicroscopyUniversity of Allahabad
 
Photometry
PhotometryPhotometry
PhotometryFarhana Atia
 
Unit – 2 Microscopy
Unit – 2 MicroscopyUnit – 2 Microscopy
Unit – 2 Microscopysanchu yadav
 
Compound microscope
Compound microscopeCompound microscope
Compound microscopeNithyaNandapal
 
Transmission electron microscope
Transmission electron microscopeTransmission electron microscope
Transmission electron microscopeSuganyaPaulraj
 
Compound microscope
Compound microscopeCompound microscope
Compound microscopeKomal Nikumbh
 
Phase contrast microscope
Phase contrast microscopePhase contrast microscope
Phase contrast microscopeNithyaNandapal
 
phase contrast microscope
phase contrast microscopephase contrast microscope
phase contrast microscopeManjunatha Sanka
 
Microscopy and Types of Microscopes
Microscopy and Types of MicroscopesMicroscopy and Types of Microscopes
Microscopy and Types of MicroscopesNCRIMS, Meerut
 
Spectroscopy techniques, it's principle, types and applications
Spectroscopy techniques, it's principle, types and applications Spectroscopy techniques, it's principle, types and applications
Spectroscopy techniques, it's principle, types and applications NizadSultana
 
X ray diffraction and applications
X ray diffraction and applicationsX ray diffraction and applications
X ray diffraction and applicationsDeepak Pandey
 
Light microscopy
Light microscopyLight microscopy
Light microscopySaurabh Bhargava
 
Raman spectroscopy by nitish kumar
Raman spectroscopy by nitish kumarRaman spectroscopy by nitish kumar
Raman spectroscopy by nitish kumarNITISH KUMAR
 
Various types of microscopes and microscopy
Various types of microscopes and microscopy Various types of microscopes and microscopy
Various types of microscopes and microscopy Dr.Dinesh Jain
 
NMR SPECTROSCOPY
NMR SPECTROSCOPYNMR SPECTROSCOPY
NMR SPECTROSCOPYPV. Viji
 
Raman Spectroscopy.pptx
Raman Spectroscopy.pptxRaman Spectroscopy.pptx
Raman Spectroscopy.pptxJubair Sikdar
 
Microscopy - Magnification, Resolving power, Principles, Types and Applications
Microscopy - Magnification, Resolving power, Principles, Types and ApplicationsMicroscopy - Magnification, Resolving power, Principles, Types and Applications
Microscopy - Magnification, Resolving power, Principles, Types and ApplicationsNethravathi Siri
 
Optical microscope
Optical microscopeOptical microscope
Optical microscopeSaurabhShankar7
 
spectrofluorimetry ppt
spectrofluorimetry pptspectrofluorimetry ppt
spectrofluorimetry pptseema bisht
 
Microscope
MicroscopeMicroscope
MicroscopeRockstarvj009
 
uv -visible spectroscopy
uv -visible spectroscopy uv -visible spectroscopy
uv -visible spectroscopykeshav pai
 
Microscope 120109025117-phpapp02
Microscope 120109025117-phpapp02Microscope 120109025117-phpapp02
Microscope 120109025117-phpapp02MICROBIOLOGYDEPARTME7
 
Microscope
MicroscopeMicroscope
MicroscopeParthasarathy Ravichandran
 

More Related Content

What's hot

Unit – 2 Microscopy
Unit – 2 MicroscopyUnit – 2 Microscopy
Unit – 2 Microscopysanchu yadav
 
Transmission electron microscope
Transmission electron microscopeTransmission electron microscope
Transmission electron microscopeSuganyaPaulraj
 
Phase contrast microscope
Phase contrast microscopePhase contrast microscope
Phase contrast microscopeNithyaNandapal
 
Microscopy and Types of Microscopes
Microscopy and Types of MicroscopesMicroscopy and Types of Microscopes
Microscopy and Types of MicroscopesNCRIMS, Meerut
 
Spectroscopy techniques, it's principle, types and applications
Spectroscopy techniques, it's principle, types and applications Spectroscopy techniques, it's principle, types and applications
Spectroscopy techniques, it's principle, types and applications NizadSultana
 
X ray diffraction and applications
X ray diffraction and applicationsX ray diffraction and applications
X ray diffraction and applicationsDeepak Pandey
 
Raman spectroscopy by nitish kumar
Raman spectroscopy by nitish kumarRaman spectroscopy by nitish kumar
Raman spectroscopy by nitish kumarNITISH KUMAR
 
Various types of microscopes and microscopy
Various types of microscopes and microscopy Various types of microscopes and microscopy
Various types of microscopes and microscopy Dr.Dinesh Jain
 
NMR SPECTROSCOPY
NMR SPECTROSCOPYNMR SPECTROSCOPY
NMR SPECTROSCOPYPV. Viji
 
Raman Spectroscopy.pptx
Raman Spectroscopy.pptxRaman Spectroscopy.pptx
Raman Spectroscopy.pptxJubair Sikdar
 
Microscopy - Magnification, Resolving power, Principles, Types and Applications
Microscopy - Magnification, Resolving power, Principles, Types and ApplicationsMicroscopy - Magnification, Resolving power, Principles, Types and Applications
Microscopy - Magnification, Resolving power, Principles, Types and ApplicationsNethravathi Siri
 
spectrofluorimetry ppt
spectrofluorimetry pptspectrofluorimetry ppt
spectrofluorimetry pptseema bisht
 
uv -visible spectroscopy
uv -visible spectroscopy uv -visible spectroscopy
uv -visible spectroscopykeshav pai
 

What's hot (20)

Photometry
PhotometryPhotometry
Photometry
 
Unit – 2 Microscopy
Unit – 2 MicroscopyUnit – 2 Microscopy
Unit – 2 Microscopy
 
Compound microscope
Compound microscopeCompound microscope
Compound microscope
 
Transmission electron microscope
Transmission electron microscopeTransmission electron microscope
Transmission electron microscope
 
Compound microscope
Compound microscopeCompound microscope
Compound microscope
 
Phase contrast microscope
Phase contrast microscopePhase contrast microscope
Phase contrast microscope
 
phase contrast microscope
phase contrast microscopephase contrast microscope
phase contrast microscope
 
Microscopy and Types of Microscopes
Microscopy and Types of MicroscopesMicroscopy and Types of Microscopes
Microscopy and Types of Microscopes
 
Spectroscopy techniques, it's principle, types and applications
Spectroscopy techniques, it's principle, types and applications Spectroscopy techniques, it's principle, types and applications
Spectroscopy techniques, it's principle, types and applications
 
X ray diffraction and applications
X ray diffraction and applicationsX ray diffraction and applications
X ray diffraction and applications
 
Light microscopy
Light microscopyLight microscopy
Light microscopy
 
Raman spectroscopy by nitish kumar
Raman spectroscopy by nitish kumarRaman spectroscopy by nitish kumar
Raman spectroscopy by nitish kumar
 
Various types of microscopes and microscopy
Various types of microscopes and microscopy Various types of microscopes and microscopy
Various types of microscopes and microscopy
 
NMR SPECTROSCOPY
NMR SPECTROSCOPYNMR SPECTROSCOPY
NMR SPECTROSCOPY
 
Raman Spectroscopy.pptx
Raman Spectroscopy.pptxRaman Spectroscopy.pptx
Raman Spectroscopy.pptx
 
Microscopy - Magnification, Resolving power, Principles, Types and Applications
Microscopy - Magnification, Resolving power, Principles, Types and ApplicationsMicroscopy - Magnification, Resolving power, Principles, Types and Applications
Microscopy - Magnification, Resolving power, Principles, Types and Applications
 
Optical microscope
Optical microscopeOptical microscope
Optical microscope
 
spectrofluorimetry ppt
spectrofluorimetry pptspectrofluorimetry ppt
spectrofluorimetry ppt
 
Microscope
MicroscopeMicroscope
Microscope
 
uv -visible spectroscopy
uv -visible spectroscopy uv -visible spectroscopy
uv -visible spectroscopy
 

Similar to Introduction to microscope

Microscope anwesha.pptx
Microscope anwesha.pptxMicroscope anwesha.pptx
Microscope anwesha.pptxAnwesha Mandal
 
Microscope part 2 BY DR. C. P. ARYA (B.Sc. B.D.S.; M.D.S.; P.M.S.; R.N.T.C.P.)
Microscope part 2 BY DR. C. P. ARYA (B.Sc. B.D.S.; M.D.S.; P.M.S.; R.N.T.C.P.)Microscope part 2 BY DR. C. P. ARYA (B.Sc. B.D.S.; M.D.S.; P.M.S.; R.N.T.C.P.)
Microscope part 2 BY DR. C. P. ARYA (B.Sc. B.D.S.; M.D.S.; P.M.S.; R.N.T.C.P.)DR. C. P. ARYA
 
microscope- lecture 2.pptx
microscope- lecture 2.pptxmicroscope- lecture 2.pptx
microscope- lecture 2.pptxOsmanAli92
 
Microscopy.ppt Microscopy.pptvMicroscopy.pptMicroscopy.pptMicroscopy.pptMicro...
Microscopy.ppt Microscopy.pptvMicroscopy.pptMicroscopy.pptMicroscopy.pptMicro...Microscopy.ppt Microscopy.pptvMicroscopy.pptMicroscopy.pptMicroscopy.pptMicro...
Microscopy.ppt Microscopy.pptvMicroscopy.pptMicroscopy.pptMicroscopy.pptMicro...KAOUKAAlaedin
 
ELECTRON MICROSCOPE-1.pptx
ELECTRON MICROSCOPE-1.pptxELECTRON MICROSCOPE-1.pptx
ELECTRON MICROSCOPE-1.pptxOpenPhone
 
Lectures Notes Types of microscopes.pptx
Lectures Notes Types of microscopes.pptxLectures Notes Types of microscopes.pptx
Lectures Notes Types of microscopes.pptxPeninaTabitha
 
B.Sc. Biochemistry II Cellular Biochemistry Unit 4 Basic Techniques in Microb...
B.Sc. Biochemistry II Cellular Biochemistry Unit 4 Basic Techniques in Microb...B.Sc. Biochemistry II Cellular Biochemistry Unit 4 Basic Techniques in Microb...
B.Sc. Biochemistry II Cellular Biochemistry Unit 4 Basic Techniques in Microb...Rai University
 
Different types of microscopes
Different types of microscopesDifferent types of microscopes
Different types of microscopesUTTAM KUMAR DAS
 
B sc micro i btm u 1 microscopy and staining
B sc micro i btm u 1 microscopy and staining B sc micro i btm u 1 microscopy and staining
B sc micro i btm u 1 microscopy and staining Rai University
 
B sc micro i btm u 1 microscopy and staining
B sc micro i btm u 1 microscopy and staining B sc micro i btm u 1 microscopy and staining
B sc micro i btm u 1 microscopy and staining Rai University
 

Similar to Introduction to microscope (20)

Microscope 120109025117-phpapp02
Microscope 120109025117-phpapp02Microscope 120109025117-phpapp02
Microscope 120109025117-phpapp02
 
Microscope
MicroscopeMicroscope
Microscope
 
Microscope anwesha.pptx
Microscope anwesha.pptxMicroscope anwesha.pptx
Microscope anwesha.pptx
 
Microscope part 2 BY DR. C. P. ARYA (B.Sc. B.D.S.; M.D.S.; P.M.S.; R.N.T.C.P.)
Microscope part 2 BY DR. C. P. ARYA (B.Sc. B.D.S.; M.D.S.; P.M.S.; R.N.T.C.P.)Microscope part 2 BY DR. C. P. ARYA (B.Sc. B.D.S.; M.D.S.; P.M.S.; R.N.T.C.P.)
Microscope part 2 BY DR. C. P. ARYA (B.Sc. B.D.S.; M.D.S.; P.M.S.; R.N.T.C.P.)
 
Microscope
MicroscopeMicroscope
Microscope
 
microscope- lecture 2.pptx
microscope- lecture 2.pptxmicroscope- lecture 2.pptx
microscope- lecture 2.pptx
 
Microscopy - Study
Microscopy - StudyMicroscopy - Study
Microscopy - Study
 
Microscopy - Study
Microscopy - StudyMicroscopy - Study
Microscopy - Study
 
Microscopy.ppt Microscopy.pptvMicroscopy.pptMicroscopy.pptMicroscopy.pptMicro...
Microscopy.ppt Microscopy.pptvMicroscopy.pptMicroscopy.pptMicroscopy.pptMicro...Microscopy.ppt Microscopy.pptvMicroscopy.pptMicroscopy.pptMicroscopy.pptMicro...
Microscopy.ppt Microscopy.pptvMicroscopy.pptMicroscopy.pptMicroscopy.pptMicro...
 
Microscope.pptx
Microscope.pptxMicroscope.pptx
Microscope.pptx
 
ELECTRON MICROSCOPE-1.pptx
ELECTRON MICROSCOPE-1.pptxELECTRON MICROSCOPE-1.pptx
ELECTRON MICROSCOPE-1.pptx
 
Prabhakar singh ii sem-unit i-microscopy and centrifugation
Prabhakar singh ii sem-unit i-microscopy and centrifugationPrabhakar singh ii sem-unit i-microscopy and centrifugation
Prabhakar singh ii sem-unit i-microscopy and centrifugation
 
Lectures Notes Types of microscopes.pptx
Lectures Notes Types of microscopes.pptxLectures Notes Types of microscopes.pptx
Lectures Notes Types of microscopes.pptx
 
MICROSCOPY.pptx
MICROSCOPY.pptxMICROSCOPY.pptx
MICROSCOPY.pptx
 
Microscope
MicroscopeMicroscope
Microscope
 
B.Sc. Biochemistry II Cellular Biochemistry Unit 4 Basic Techniques in Microb...
B.Sc. Biochemistry II Cellular Biochemistry Unit 4 Basic Techniques in Microb...B.Sc. Biochemistry II Cellular Biochemistry Unit 4 Basic Techniques in Microb...
B.Sc. Biochemistry II Cellular Biochemistry Unit 4 Basic Techniques in Microb...
 
Different types of microscopes
Different types of microscopesDifferent types of microscopes
Different types of microscopes
 
B sc micro i btm u 1 microscopy and staining
B sc micro i btm u 1 microscopy and staining B sc micro i btm u 1 microscopy and staining
B sc micro i btm u 1 microscopy and staining
 
B sc micro i btm u 1 microscopy and staining
B sc micro i btm u 1 microscopy and staining B sc micro i btm u 1 microscopy and staining
B sc micro i btm u 1 microscopy and staining
 
microscope
microscopemicroscope
microscope
 

More from TasmiaZeb1

Quality control & quality assurance presentation
Quality control & quality assurance presentationQuality control & quality assurance presentation
Quality control & quality assurance presentationTasmiaZeb1
 
Basic methods in haematology
Basic methods in haematologyBasic methods in haematology
Basic methods in haematologyTasmiaZeb1
 
Haemocytometry
HaemocytometryHaemocytometry
HaemocytometryTasmiaZeb1
 
Blood collection and presevation
Blood collection and presevationBlood collection and presevation
Blood collection and presevationTasmiaZeb1
 
Calculation of red cell indices
Calculation of red cell indicesCalculation of red cell indices
Calculation of red cell indicesTasmiaZeb1
 
Blood cell morphology
Blood cell morphologyBlood cell morphology
Blood cell morphologyTasmiaZeb1
 
Types of anemias
Types of anemiasTypes of anemias
Types of anemiasTasmiaZeb1
 
Blood cells and hematopoesis
Blood cells and hematopoesis Blood cells and hematopoesis
Blood cells and hematopoesis TasmiaZeb1
 
Blood 140906133857-phpapp02
Blood 140906133857-phpapp02Blood 140906133857-phpapp02
Blood 140906133857-phpapp02TasmiaZeb1
 
Blood composition-190117102520 (1)
Blood composition-190117102520 (1)Blood composition-190117102520 (1)
Blood composition-190117102520 (1)TasmiaZeb1
 
Classification of bacteria
Classification of bacteriaClassification of bacteria
Classification of bacteriaTasmiaZeb1
 
Bacteria cell structure
Bacteria cell structureBacteria cell structure
Bacteria cell structureTasmiaZeb1
 
Micoscope introduction
Micoscope introductionMicoscope introduction
Micoscope introductionTasmiaZeb1
 
Introductuion to microbiology
Introductuion to microbiologyIntroductuion to microbiology
Introductuion to microbiologyTasmiaZeb1
 

More from TasmiaZeb1 (19)

Quality control & quality assurance presentation
Quality control & quality assurance presentationQuality control & quality assurance presentation
Quality control & quality assurance presentation
 
Basic methods in haematology
Basic methods in haematologyBasic methods in haematology
Basic methods in haematology
 
Haemocytometry
HaemocytometryHaemocytometry
Haemocytometry
 
Blood collection and presevation
Blood collection and presevationBlood collection and presevation
Blood collection and presevation
 
Calculation of red cell indices
Calculation of red cell indicesCalculation of red cell indices
Calculation of red cell indices
 
Haemostasis
HaemostasisHaemostasis
Haemostasis
 
Leukaemias
LeukaemiasLeukaemias
Leukaemias
 
Blood cell morphology
Blood cell morphologyBlood cell morphology
Blood cell morphology
 
Types of anemias
Types of anemiasTypes of anemias
Types of anemias
 
Anemias
AnemiasAnemias
Anemias
 
Anticoagulant
AnticoagulantAnticoagulant
Anticoagulant
 
Haemoglobin
HaemoglobinHaemoglobin
Haemoglobin
 
Blood cells and hematopoesis
Blood cells and hematopoesis Blood cells and hematopoesis
Blood cells and hematopoesis
 
Blood 140906133857-phpapp02
Blood 140906133857-phpapp02Blood 140906133857-phpapp02
Blood 140906133857-phpapp02
 
Blood composition-190117102520 (1)
Blood composition-190117102520 (1)Blood composition-190117102520 (1)
Blood composition-190117102520 (1)
 
Classification of bacteria
Classification of bacteriaClassification of bacteria
Classification of bacteria
 
Bacteria cell structure
Bacteria cell structureBacteria cell structure
Bacteria cell structure
 
Micoscope introduction
Micoscope introductionMicoscope introduction
Micoscope introduction
 
Introductuion to microbiology
Introductuion to microbiologyIntroductuion to microbiology
Introductuion to microbiology
 

Recently uploaded

Spermiogenesis or Spermateleosis or metamorphosis of spermatid
Spermiogenesis or Spermateleosis or metamorphosis of spermatidSpermiogenesis or Spermateleosis or metamorphosis of spermatid
Spermiogenesis or Spermateleosis or metamorphosis of spermatidSarthak Sekhar Mondal
 
VIRUSES structure and classification ppt by Dr.Prince C P
VIRUSES structure and classification ppt by Dr.Prince C PVIRUSES structure and classification ppt by Dr.Prince C P
VIRUSES structure and classification ppt by Dr.Prince C PPRINCE C P
 
Disentangling the origin of chemical differences using GHOST
Disentangling the origin of chemical differences using GHOSTDisentangling the origin of chemical differences using GHOST
Disentangling the origin of chemical differences using GHOSTSérgio Sacani
 
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...jana861314
 
Recombination DNA Technology (Nucleic Acid Hybridization )
Recombination DNA Technology (Nucleic Acid Hybridization )Recombination DNA Technology (Nucleic Acid Hybridization )
Recombination DNA Technology (Nucleic Acid Hybridization )aarthirajkumar25
 
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...Sérgio Sacani
 
Is RISC-V ready for HPC workload? Maybe?
Is RISC-V ready for HPC workload? Maybe?Is RISC-V ready for HPC workload? Maybe?
Is RISC-V ready for HPC workload? Maybe?Patrick Diehl
 
Natural Polymer Based Nanomaterials
Natural Polymer Based NanomaterialsNatural Polymer Based Nanomaterials
Natural Polymer Based NanomaterialsAArockiyaNisha
 
Physiochemical properties of nanomaterials and its nanotoxicity.pptx
Physiochemical properties of nanomaterials and its nanotoxicity.pptxPhysiochemical properties of nanomaterials and its nanotoxicity.pptx
Physiochemical properties of nanomaterials and its nanotoxicity.pptxAArockiyaNisha
 
Call Girls in Mayapuri Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Mayapuri Delhi 💯Call Us 🔝9953322196🔝 💯Escort.Call Girls in Mayapuri Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Mayapuri Delhi 💯Call Us 🔝9953322196🔝 💯Escort.aasikanpl
 
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptx
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptxUnlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptx
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptxanandsmhk
 
Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​kaibalyasahoo82800
 
Analytical Profile of Coleus Forskohlii | Forskolin .pdf
Analytical Profile of Coleus Forskohlii | Forskolin .pdfAnalytical Profile of Coleus Forskohlii | Forskolin .pdf
Analytical Profile of Coleus Forskohlii | Forskolin .pdfSwapnil Therkar
 
Artificial Intelligence In Microbiology by Dr. Prince C P
Artificial Intelligence In Microbiology by Dr. Prince C PArtificial Intelligence In Microbiology by Dr. Prince C P
Artificial Intelligence In Microbiology by Dr. Prince C PPRINCE C P
 
Luciferase in rDNA technology (biotechnology).pptx
Luciferase in rDNA technology (biotechnology).pptxLuciferase in rDNA technology (biotechnology).pptx
Luciferase in rDNA technology (biotechnology).pptxAleenaTreesaSaji
 
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...Sérgio Sacani
 
Orientation, design and principles of polyhouse
Orientation, design and principles of polyhouseOrientation, design and principles of polyhouse
Orientation, design and principles of polyhousejana861314
 
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.aasikanpl
 
Animal Communication- Auditory and Visual.pptx
Animal Communication- Auditory and Visual.pptxAnimal Communication- Auditory and Visual.pptx
Animal Communication- Auditory and Visual.pptxUmerFayaz5
 

Recently uploaded (20)

Spermiogenesis or Spermateleosis or metamorphosis of spermatid
Spermiogenesis or Spermateleosis or metamorphosis of spermatidSpermiogenesis or Spermateleosis or metamorphosis of spermatid
Spermiogenesis or Spermateleosis or metamorphosis of spermatid
 
VIRUSES structure and classification ppt by Dr.Prince C P
VIRUSES structure and classification ppt by Dr.Prince C PVIRUSES structure and classification ppt by Dr.Prince C P
VIRUSES structure and classification ppt by Dr.Prince C P
 
Disentangling the origin of chemical differences using GHOST
Disentangling the origin of chemical differences using GHOSTDisentangling the origin of chemical differences using GHOST
Disentangling the origin of chemical differences using GHOST
 
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...
Traditional Agroforestry System in India- Shifting Cultivation, Taungya, Home...
 
Recombination DNA Technology (Nucleic Acid Hybridization )
Recombination DNA Technology (Nucleic Acid Hybridization )Recombination DNA Technology (Nucleic Acid Hybridization )
Recombination DNA Technology (Nucleic Acid Hybridization )
 
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
Discovery of an Accretion Streamer and a Slow Wide-angle Outflow around FUOri...
 
Is RISC-V ready for HPC workload? Maybe?
Is RISC-V ready for HPC workload? Maybe?Is RISC-V ready for HPC workload? Maybe?
Is RISC-V ready for HPC workload? Maybe?
 
Natural Polymer Based Nanomaterials
Natural Polymer Based NanomaterialsNatural Polymer Based Nanomaterials
Natural Polymer Based Nanomaterials
 
Physiochemical properties of nanomaterials and its nanotoxicity.pptx
Physiochemical properties of nanomaterials and its nanotoxicity.pptxPhysiochemical properties of nanomaterials and its nanotoxicity.pptx
Physiochemical properties of nanomaterials and its nanotoxicity.pptx
 
Call Girls in Mayapuri Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Mayapuri Delhi 💯Call Us 🔝9953322196🔝 💯Escort.Call Girls in Mayapuri Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Mayapuri Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
 
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptx
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptxUnlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptx
Unlocking the Potential: Deep dive into ocean of Ceramic Magnets.pptx
 
Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​Nanoparticles synthesis and characterization​ ​
Nanoparticles synthesis and characterization​ ​
 
Analytical Profile of Coleus Forskohlii | Forskolin .pdf
Analytical Profile of Coleus Forskohlii | Forskolin .pdfAnalytical Profile of Coleus Forskohlii | Forskolin .pdf
Analytical Profile of Coleus Forskohlii | Forskolin .pdf
 
Artificial Intelligence In Microbiology by Dr. Prince C P
Artificial Intelligence In Microbiology by Dr. Prince C PArtificial Intelligence In Microbiology by Dr. Prince C P
Artificial Intelligence In Microbiology by Dr. Prince C P
 
Luciferase in rDNA technology (biotechnology).pptx
Luciferase in rDNA technology (biotechnology).pptxLuciferase in rDNA technology (biotechnology).pptx
Luciferase in rDNA technology (biotechnology).pptx
 
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...
All-domain Anomaly Resolution Office U.S. Department of Defense (U) Case: “Eg...
 
9953056974 Young Call Girls In Mahavir enclave Indian Quality Escort service
9953056974 Young Call Girls In Mahavir enclave Indian Quality Escort service9953056974 Young Call Girls In Mahavir enclave Indian Quality Escort service
9953056974 Young Call Girls In Mahavir enclave Indian Quality Escort service
 
Orientation, design and principles of polyhouse
Orientation, design and principles of polyhouseOrientation, design and principles of polyhouse
Orientation, design and principles of polyhouse
 
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
 
Animal Communication- Auditory and Visual.pptx
Animal Communication- Auditory and Visual.pptxAnimal Communication- Auditory and Visual.pptx
Animal Communication- Auditory and Visual.pptx
 

Introduction to microscope

  • 2. TERMS AND DEFINITIONS Principle Microscopy is to get a magnified image, in which structures may be resolved which could not be resolved with the help of an unaided eye. Magnification • It is the ratio of the size of an object seen under microscope to the actual size observed with unaided eye. • The total magnification of microscope is calculated by multiplying the magnifying power of the objective lens by that of eye piece. Resolving power • It is the ability to differentiate two close points as separate. • The resolving power of human eye is 0.25 mm • The light microscope can separate dots that are 0.25µm apart. • The electron microscope can separate dots that are 0.5nmapart.
  • 3. TERMS AND DEFINITIONS Limit of resolution It is the minimum distance between two points to identify them separately. It is calculated by Abbé equation. Limit of resolution is inversely proportional to power or resolution. If the wavelength is shorter then the resolution will be greater. Working distance • It is the distance between the objective and the objective slide. • The working distance decreases with increasing magnification.
  • 4. TERMS AND DEFINITIONS Numerical aperture(NA) The numerical aperture of a lens is the ratio of the diameter ofthe lens to its focal length. NA of a lens is an index of the resolvingpower. NA can be decreased by decreasing the amount of light that passesthrough a lens. Diameter of the lens
  • 5. Light microscope • In 1590 F.H Janssen & Z.Janssen constructed the first simple compound light microscope. • In 1665 Robert Hooke developed a first laboratory compound microscope. • Later, Kepler and galileo developed a modern class room microscope. • In 1672 Leeuwenhoek developed a first simple microscope with a magnification of 200x – 300x. • He is called as Father of microscopy. • The term microscope was coined by Faber in 1623.
  • 6. Light microscope Parts of microscope • Illuminator - This is the light source located below the specimen. • Condenser - Focuses the ray of light through the specimen. • Stage - The fixed stage is a horizontal platform that holds the specimen. • Objective - The lens that is directly above the stage. • Nosepiece - The portion of the body that holds the objectives over the stage. • Iris diaphragm - Regulates the amount of light into the condenser. • Base – Base supports the microscope which is horseshoe shaped. • Coarse focusing knob - Used to make relatively wide focusing adjustments to the microscope. • Fine focusing knob - Used to make relatively small adjustments to the microscope. • Body - The microscope body. • Ocular eyepiece - Lens on the top of the body tube. It has a magnification of 10× normal vision.
  • 7. Light microscope Objective PROPERTY LOW POWER HIGH POWER OIL IMMERSION Magnification of objective 10x 40-45x 90-100x Magnification of 10x 10x 10x eyepiece Total magnification 100x 450 – 450x 900 – 1000x Numerical aperture 0.25 – 0.30 0.55 – 0.65 1.25 – 1.4 Mirror used Concave Concave Plane Focal length (Approx) 16 mm 4 mm 1.8 – 2 mm Working distance 4 – 8 mm 0.5 – 0.7 mm 0.1 mm Iris diaphragm Partially closed Partially opened Fully opened Position of condenser Lowest Slightly raised Fully raised Maximum resolution(Appro 0.9 µm 0.35µm 0.18µm
  • 11. Fluorescence microscope It was developed by Haitinger and coons A fluorescence microscope differs from an ordinary brightfield microscope in several respects. It utilizes a powerful mercury vapor arc lamp for its light source. A darkfield condenser is usually used in place of the conventional Abbé brightfield condenser. It employs three sets of filters to alter the light that passes up through the instrument to the eye. Microbiological speciemen that is to be studied must be coated with special compounds that possess the quality of fluorescence. Such compounds are called fluorochromes. AuramineO, acridine orange, and fluorescein are well-known fluorochromes.
  • 12. Uses: It is used to study the substance like chlorophylls, riboflavin, vitamin A, collagen which have the property of auto fluorescence. Some cellular components like cellulose, starch, glycogen, protein and Y chromosome can be made visible under this microscope by staining them with fluorochromes. It used to identify Y chromosome to determine sex, determination of microbial cells in the infected tissue and to study the structure of proteins. Fluorescence microscope
  • 14. Electron microscope In 1932 Knoll and Ruska invented first electron microscope. The electron microscope uses a beam of electrons rather than visible light. The magnified image is visible on a fluorescent screen and can be recorded on a photographic film. The drawback of the electron microscope is specimen are killed in order to view the cells or organisms. Images produced by electrons lack color, electron micrographs are always shades of black, gray, and white. Two general forms of EM are the transmission electron microscope (TEM) and the scanning electron microscope (SEM). Transmission electron microscopes are the method of choice for viewing the detailed structure of cells and viruses. This microscope produces its image by transmitting electrons through the specimen. Because electrons cannot readily penetrate thick preparations, the specimen must be sectioned into extremely thin slices (20–100 nm thick) and stained or coated with metals that will increase image contrast. The darkest areas of TEM micrographs represent the thicker (denser) parts, and the lighter areas indicate the more transparent and less dense parts.
  • 17. Electron microscope(SEM) The specimen is placed in the vacuum chamber and covered with a thin coat of gold. The electron beam then scans across the specimen and knocks loose showers of electrons that are captured by a detector. An image builds line by line, as in a television receiver. Electrons that strike a sloping surface yield fewer electrons, thereby producing a darker contrasting spot and a sense of three dimensions. The resolving power of the conventional SEM is about 10 nm and magnifications with the SEM are limited to about 20,000x.
  • 19. Light Vs Electron microscope
  • 20. Uses