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Bioinstrumentation

Book ID: 1828

Author: Dr. Avinash Mancharkar, Ashok Jadhavar, Dr. Ashok Jadhav

ISBN: 978-81-944620-0-2

About Authors

Dr. Avinash V. Mancharkar completed M.Sc. (Physics) in 1987 and M.Phil. (Electronic Science) in 1999 from SP Pune University. He completed Ph.D (Physics) in 2007 from Dr. B.A.M. University, Aurangabad. He has over 32 years of experience in teaching at both UG and PG level and has published 20 research papers in National and International journals. He participated in more than 40 State, National and International level seminars and conferences and presented research papers. He has published 3 books. He is a research guide for M.Phil and Ph.D. in Physics and M.Phil in Electronic Science of SPPU.

Ashok A. Jadhavar had completed M.Sc. in Physics from Department of Physics, Savitribai Phule Pune University, Pune in 2013 with “Energy Studies” as specialization. He is working as Assistant Professor in Department of Physics, New Arts, Commerce and Science College, Ahmednagar. He has published more than 10 research papers in peer reviewed international Journals. He worked as editor of RMC – 2017 proceeding. He has 6 years of research experience in the field of solar cell materials.

Dr. Ashok Jadhav has worked as Moderator, Chief Moderator & Paper Setter for many times at State Board of Higher Education. The author has huge teaching experience of 38 years, teaching upto post graduate classes & research students. The author has written books for FY, SY & TY B.Sc. classes. The author has done his research work at BARC (Mumbai) & present research papers at International Conferences and also at OHIO State University, Columbus, USA.

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Description

Contents

1. Bio instrumentation
1.1 Introduction
2. Basic Bioinstrumentation System
2.1 Charge
2.2 Current
2.3 Voltage
2.4 Power and Energy
2.5 Resistance
2.6 Inductance
2.7 Capacitance
3. Analytic Techniques
3.1 Bioinstrumentation Design
3.2 Noise
2. Spectroscopy
1. Electromagnetic Waves
1.1 Hertz’s Experiment
1.2 Characteristics of Electromagnetic Waves
1.3 Transverse Nature of Electromagnetic Waves
2. Electromagnetic Spectrum
3. Introduction to Molecular Energy Levels (Molecular Spectra)
4. Energy Levels of Rigid Diatomic Molecules (Rotational Spectra)
5. Electron Spectroscopy
6. UV - Visible Spectroscopy
7. Colorimeter
8. Spectrophotometer
9. Flurometer (Fluorescence Spectroscopy)
10. Application to Biomolecules
3. SEPARATION METHODS
1. Introduction
2. Theory of Chromatography
3. Thin Layer Chromatography (TLC) Instrumentation
4. Procedure of Thin Layer Chromatography (TLC)
5. Applications of Thin Layer Chromatography (TLC)
4. BIOINSTRUMENTS
1. Introduction
2. pH Meter
3. Centrifuge
4. Mass Spectroscopy (MS)
4.1 Mass Spectrometer
4.2 Bainbridge Mass Spectrometer
4.3 Magnetic Analyzer
5. Atomic Spectroscopy
5. Microscopes
1. Resolving Power (Concept)
1.1 Diffraction
1.2 Rayleigh Criterion
2. Chromatic and Achromatic Aberrations
2.1 Spherical Aberration
2.2 Chromatic Aberration
3. Microscopes
3.1 Stereozoom (Dissecting) Microscope
3.2 Compound Microscope
3.3 Bright and Dark Field Microscope
3.4 Inverted Microscope
3.5 Phase Contrast Microscope
3.6 Fluorescence Microscope
3.7 Electron Microscope
6. THERMOREGULATION
1. Introduction
2. Thermal Expansion Methods
2.1 Clinical (Liquid in Glass) Thermometer
2.2 Bimetallic Thermometers
3. Thermoelectric Effect Instrument (Thermocouple Thermometer)
4. Varying Resistance Devices
4.1 Platinum Resistance Thermometers
4.2 Thermistor Thermometer (Semiconductor Thermometers)
5. Body Temperature and its Regulation
5.1 Importance of Constant Body Temperature (Regulation)
5.2 Measurement of Body Temperature