Our CD’S offer detailed chapter wise explanations along with interesting animations and a clear voice-over. You also get a synopsis of every chapter, a detailed glossary, easy learning techniques, flow charts with each lesson to explain concepts better and an extensive question & answer bank based on the new syllabus.

List of chapters covered in our Chemistry CD’s: Some Basic Concepts of Chemistry Structure of Atom Classification of Elements and Periodicity in Properties Chemical Bonding and Molecular Structure States of Matter Thermodynamics Equilibrium Redox Reactions Hydrogen The s-Block Elements The p-Block Elements Organic Chemistry - Some Basic Principles and Techniques Hydrocarbons Environmental Chemistry Deliverable Countries : This product ships to Edurite’s Chemistry CD’s make learning the subject easy and interesting. Our CD’s are completely mapped out to the CBSE class 11tth Chemistry syllabus and they serve as an excellent guide for learning the subject.

Our CD’S offer detailed chapter wise explanations along with interesting animations and a clear voice-over. You also get a synopsis of every chapter, a detailed glossary, easy learning techniques, flow charts with each lesson to explain concepts better and an extensive question & answer bank based on the new syllabus.

List of chapters covered in our Chemistry CD’s: Some Basic Concepts of Chemistry Structure of Atom Classification of Elements and Periodicity in Properties Chemical Bonding and Molecular Structure States of Matter Thermodynamics Equilibrium Redox Reactions Hydrogen The s-Block Elements The p-Block Elements Organic Chemistry - Some Basic Principles and Techniques Hydrocarbons Environmental Chemistry Deliverable Countries : This product ships to Edurite’s Chemistry CD’s make learning the subject easy and interesting. Our CD’s are completely mapped out to the CBSE class 11tth Chemistry syllabus and they serve as an excellent guide for learning the subject.

Our CD’S offer detailed chapter wise explanations along with interesting animations and a clear voice-over. You also get a synopsis of every chapter, a detailed glossary, easy learning techniques, flow charts with each lesson to explain concepts better and an extensive question & answer bank based on the new syllabus.

List of chapters covered in our Chemistry CD’s: Some Basic Concepts of Chemistry Structure of Atom Classification of Elements and Periodicity in Properties Chemical Bonding and Molecular Structure States of Matter Thermodynamics Equilibrium Redox Reactions Hydrogen The s-Block Elements The p-Block Elements Organic Chemistry - Some Basic Principles and Techniques Hydrocarbons Environmental Chemistry Deliverable Countries : This product ships to Edurite’s Chemistry CD’s make learning the subject easy and interesting. Our CD’s are completely mapped out to the CBSE class 11tth Chemistry syllabus and they serve as an excellent guide for learning the subject.

Our CD’S offer detailed chapter wise explanations along with interesting animations and a clear voice-over. You also get a synopsis of every chapter, a detailed glossary, easy learning techniques, flow charts with each lesson to explain concepts better and an extensive question & answer bank based on the new syllabus.

List of chapters covered in our Chemistry CD’s: Some Basic Concepts of Chemistry Structure of Atom Classification of Elements and Periodicity in Properties Chemical Bonding and Molecular Structure States of Matter Thermodynamics Equilibrium Redox Reactions Hydrogen The s-Block Elements The p-Block Elements Organic Chemistry - Some Basic Principles and Techniques Hydrocarbons Environmental Chemistry Deliverable Countries : This product ships to (less)

Our CD’S offer detailed chapter wise explanations along with interesting animations and a clear voice-over. You also get a synopsis of every chapter, a detailed glossary, easy learning techniques, flow charts with each lesson to explain concepts better and an extensive question & answer bank based on the new syllabus.

List of chapters covered in our Chemistry CD’s: Some Basic Concepts of Chemistry Structure of Atom Classification of Elements and Periodicity in Properties Chemical Bonding and Molecular Structure States of Matter Thermodynamics Equilibrium Redox Reactions Hydrogen The s-Block Elements The p-Block Elements Organic Chemistry - Some Basic Principles and Techniques Hydrocarbons Environmental Chemistry (less)

We now have a much clearer understanding of the disease, its management and the rehabilitation of patients. But there is still much to be done.

Th is book aims to cover a range of exciting new fi ndings in clinical sciences, basic sciences and allied specialties with an emphasis on their relevance to HNC. Th is work promises to improve preventive and therapeutic strategies and will hopefully culminate in improved outcomes of HNC.

Th e contributions have been made by established leaders in the fi eld and every eff ort has been made to address the issue in a comprehensive, yet concise, manner for the benefi t of readers. We hope that this volume will provide up-to-date information on individual upcomingoutstanding issues in the management of HNC.

We believe that Issues in Head and Neck Cancer will be of value to establishedin-training clinicians, scientists, allied professionals as well as medical students who have inquisitive minds and wish to further enhance their knowledge of HNC. * (less)

We now have a much clearer understanding of the disease, its management and the rehabilitation of patients. But there is still much to be done.

Th is book aims to cover a range of exciting new fi ndings in clinical sciences, basic sciences and allied specialties with an emphasis on their relevance to HNC. Th is work promises to improve preventive and therapeutic strategies and will hopefully culminate in improved outcomes of HNC.

Th e contributions have been made by established leaders in the fi eld and every eff ort has been made to address the issue in a comprehensive, yet concise, manner for the benefi t of readers. We hope that this volume will provide up-to-date information on individual upcomingoutstanding issues in the management of HNC.

We believe that Issues in Head and Neck Cancer will be of value to establishedin-training clinicians, scientists, allied professionals as well as medical students who have inquisitive minds and wish to further enhance their knowledge of HNC. * (less)

It is contributing significantly in understanding the scientific basis of life at molecular level. Molecular Biology have made emergence of new disciplines like recombinant DNA technology, bioinformatics, proteomics, regenerative medicines and molecular farming etc (less)

The various chapters cover a wide range of topics that are most essential to unravel the dynamic nature of life at the molecular level (less)

Very little previous knowledge is assumed; mathematics is kept to a minimum, the treatment being only semi-quantitative. The following chapter uses this quantum mechanical framework to establish the selection rules which govern spectroscopic transitions.

Chapters 4 - 7 describe the various branches of spectroscopy covered by the book; rotational, rotational - vibrational, Raman, and electronic spectroscopy. Quantum mechanics is used to derive formulae for the various energy levels involved and for the relative intensities of different types of transition.

From these, the appearances of the different types of spectra are derived. The molecular parameters on which these spectra depend are defined and the structural information which can be derived from these is discussed.

Strong theoretical emphasis gives the reader a thorough understanding of the subject Unified approach to the different branches of spectroscopy Assumes minimal mathematical knowledge, with practical examples and diagrams throughout Second year undergraduate students of chemistry. Also, undergraduate students of chemical physics, physics and biochemistry.

Radiation and Matter . Quantization and Molecular Energy Levels .

Transition Probabilities and Selection Rules . Rotational Spectroscopy .

Vibrational Spectroscopy . Raman Spectroscopy .

Electronic Spectroscopy . This book provides a straightforward introduction to the spectroscopy of diatomic molecules and is written at the level of intermediate undergraduate courses in physical chemistry and chemical physics.

Following a general introduction to the subject, the second chapter lays out the essential quantum mechanical tools required to understand spectroscopy. Very little previous knowledge is assumed; mathematics is kept to a minimum, the treatment being only semi-quantitative.

The following chapter uses this quantum mechanical framework to establish the selection rules which govern spectroscopic transitions. Chapters 4 - 7 describe the various branches of spectroscopy covered by the book; rotational, rotational - vibrational, Raman, and electronic spectroscopy.

Quantum mechanics is used to derive formulae for the various energy levels involved and for the relative intensities of different types of transition. From these, the appearances of the different types of spectra are derived.

The molecular parameters on which these spectra depend are defined and the structural information which can be derived from these is discussed. Strong theoretical emphasis gives the reader a thorough understanding of the subject Unified approach to the different branches of spectroscopy Assumes minimal mathematical knowledge, with practical examples and diagrams throughout Second year undergraduate students of chemistry.

Also, undergraduate students of chemical physics, physics and biochemistry. Radiation and Matter .

Quantization and Molecular Energy Levels . Transition Probabilities and Selection Rules .

Rotational Spectroscopy . Vibrational Spectroscopy .

Raman Spectroscopy . Electronic Spectroscopy .

Deliverable Countries : This product ships to This book provides a straightforward introduction to the spectroscopy of diatomic molecules and is written at the level of intermediate undergraduate courses in physical chemistry and chemical physics. Following a general introduction to the subject, the second chapter lays out the essential quantum mechanical tools required to understand spectroscopy.

Very little previous knowledge is assumed; mathematics is kept to a minimum, the treatment being only semi-quantitative. The following chapter uses this quantum mechanical framework to establish the selection rules which govern spectroscopic transitions.

Chapters 4 - 7 describe the various branches of spectroscopy covered by the book; rotational, rotational - vibrational, Raman, and electronic spectroscopy. Quantum mechanics is used to derive formulae for the various energy levels involved and for the relative intensities of different types of transition.

From these, the appearances of the different types of spectra are derived. The molecular parameters on which these spectra depend are defined and the structural information which can be derived from these is discussed.

Strong theoretical emphasis gives the reader a thorough understanding of the subject Unified approach to the different branches of spectroscopy Assumes minimal mathematical knowledge, with practical examples and diagrams throughout Second year undergraduate students of chemistry. Also, undergraduate students of chemical physics, physics and biochemistry.

Radiation and Matter . Quantization and Molecular Energy Levels .

Transition Probabilities and Selection Rules . Rotational Spectroscopy .

Vibrational Spectroscopy . Raman Spectroscopy .

Electronic Spectroscopy . Deliverable Countries : This product ships to This book provides a straightforward introduction to the spectroscopy of diatomic molecules and is written at the level of intermediate undergraduate courses in physical chemistry and chemical physics.

Following a general introduction to the subject, the second chapter lays out the essential quantum mechanical tools required to understand spectroscopy. Very little previous knowledge is assumed; mathematics is kept to a minimum, the treatment being only semi-quantitative.

The following chapter uses this quantum mechanical framework to establish the selection rules which govern spectroscopic transitions. Chapters 4 - 7 describe the various branches of spectroscopy covered by the book; rotational, rotational - vibrational, Raman, and electronic spectroscopy.

Quantum mechanics is used to derive formulae for the various energy levels involved and for the relative intensities of different types of transition. From these, the appearances of the different types of spectra are derived.

The molecular parameters on which these spectra depend are defined and the structural information which can be derived from these is discussed. Strong theoretical emphasis gives the reader a thorough understanding of the subject Unified approach to the different branches of spectroscopy Assumes minimal mathematical knowledge, with practical examples and diagrams throughout Second year undergraduate students of chemistry.

Also, undergraduate students of chemical physics, physics and biochemistry. Radiation and Matter .

Quantization and Molecular Energy Levels . Transition Probabilities and Selection Rules .

Rotational Spectroscopy . Vibrational Spectroscopy .

Raman Spectroscopy . Electronic Spectroscopy .

Deliverable Countries : This product ships to (less)

A few aspects of cell biology, biochemistry and endocrinology are also freely discussed at appropriate instances. These instances are enough to keep the arguments down to earth and so reduce the confusion in grasping the subject (less)

The academic discipline which studies cells is cell biology. This includes their physiological properties such as their structure and the organelles they contain, their environment and interactions, their life cycle, division and function and eventual death.

Research in cell biology is closely related to genetics, biochemistry, molecular biology and developmental biology. This book on molecular biology of the cell concerned mainly with those properties that are common to biological cells.

It also discusses issues such as internal organization of the cell, nature and functions of cell components and molecular genetics. It will be a reliable source of information to students and teachers in various field of life sciences (less)

It is intended to be accessible to a wide range of readership, including students, scientists and reasearchers (less)

Treatment is essentially analytical. Appendixes.

References. 1974 edition.

M S Child has contributed to Molecular Collision Theory as an author. Child is from the University of Oxford High-level treatment introduces theory required for interpretation of an increasingly sophisticated range of molecular scattering experiments.

Topics include classical scattering by a central force, quantum scattering by a central force, elastic scattering phase shifts, semi-classical elastic scattering, more. Treatment is essentially analytical.

Appendixes. References.

1974 edition. M S Child has contributed to Molecular Collision Theory as an author.

Child is from the University of Oxford Deliverable Countries : This product ships to High-level treatment introduces theory required for interpretation of an increasingly sophisticated range of molecular scattering experiments. Topics include classical scattering by a central force, quantum scattering by a central force, elastic scattering phase shifts, semi-classical elastic scattering, more.

Treatment is essentially analytical. Appendixes.

References. 1974 edition.

M S Child has contributed to Molecular Collision Theory as an author. Child is from the University of Oxford Deliverable Countries : This product ships to (less)

This book demonstrates how molecular epidemiology utilizes the same paradigm as traditional epidemiology in addition to using biological markers to identify exposure, disease, or susceptibility (less)

This book has been written primarily to stimulate interest of students in molecular spectroscopy and to introduce these four major spectroscopic techniques used for the identification of organic compounds. The treatment of each technique commences with a brief introduction followed by basic theory, instrumentation, basic concepts and applications.

Special attention has been paid on the basic concepts and interpretation of various types of spectra of unknown compounds with reference to their structures. Table of Contents: Molecular Spectroscopy and Electromagnetic Spectrum: Spectroscopy, Spectrometry / Electromagnetic radiation and electromagnetic spectrum / Quantum theory of electromagnetic radiation / Types of molecular spectroscopy / Infrared Spectroscopy: Introduction / Basic Theory and Double-beam infrared spectrometer / Infrared spectrum: Functional group and finger print regions / Absorption of infrared radiation and molecular vibrations / Fundamental vibrations and overtones / Infrared vibrations-active and forbidden (selection rules) / Intensity and position of infrared absorption bands / Frequency of vibration of a diatomic molecule / Spectral features of major functional groups and interpretation of infrared spectra of some representative compounds / Applications of infrared spectroscopy / Sample and study IR spectral problems / Ultraviolet Spectroscopy: Basic Concepts and Instrumentation: Introduction / The ultraviolet spectrum, electronic energy levels, electronic transitions and selection rules, the origin, general appearance and designation of UV bands, The absorption laws and measurement of absorption intensity, chromophore and anxochrome, bathochromic shift and hypsochronic shift, hyperchromic effect and hypochromic effect, Ultraviolect-visible spectrometer / Factors affecting the position of UV bands / Characteristic absorption of organic compounds / Woodword-Fieser rules for calculating distortion maxima of unsaturated hydrocarbons and a, b-unsaturated carbonyl compounds / Applications of ultraviolet spectroscopy to problems in organic chemistry / Sample and study UV spectral problems / Nuclear Magnetic Resonance Spectroscopy: Introduction / Spin-active nuclei behave as spinning nuclear magnets / Orientation of spinning nuclear magnets in a uniform magnetic field and energy description in NMR phenomenon / Phenomenon of energy absorption resonance and relaxation / Continuous wave (CW) NMR spectrometer / Chemical shift, chemical shift parameters and internal standards / Shielding and deshielding of a nucleus caused by inductive and mesomeric effects / Anisotropic effect / Equivalence and non-equivalence of protons / Spin coupling and spin-spin splitting / Multiple of splitting and relative intensity of lines in a multiplet / Coupling constants and the factors affecting them / Integration / Chemical shift values for various types of protons / Proton spin-spin coupling constants / Interpreation of PMR spectra of some representative compounds / Applications of PMR spectroscopy / Sample and study PMR spectral problems/ Mass Spectrometry: Introduction / Basic theory / The mass spectrometer / Mass spectrum, base peak, Molecular ion and parent ion, Mass-to-charge ratio (m/z), Relative intensity, Fragment ions, Metastable ions, Even-electron rule, Nitrogen rule, Mckafferty rearrangement and ortho effect / fragmentation: Patterns and processes / Characteristic features and fragmentation patterns of various classes of compounds / Some important applications of mass spectrometry / sample and study mass spectral problems / Composite Spectral Problems: Aids to Structural Information / Application of Spectroscopic techniques to structural elucidation / Composite problems with solutions (set 1) / Interpretation of UV, IR, PMR and Mass Spectra for the identification of organic compounds (Set II) / Unsolved problems (Set III) Audience: Graduate and Postgraduate Students of Chemistry, Biochemistry and Pharmaceutical Sciences Deliverable Countries : This product ships to About the Book: The rapid development in spectroscopic techniques, during the last two decades, has revolutionized the approach to organic structure determination.

Topics pertaining to molecular spectroscopy such as IR, UV, NMR spectroscopy and Mass spectrometry are increasingly being introduced at the undergraduate level in most of the universities.This book has been written primarily to stimulate interest of students in molecular spectroscopy and to introduce these four major spectroscopic techniques used for the identification of organic compounds.

The treatment of each technique commences with a brief introduction followed by basic theory, instrumentation, basic concepts and applications. Special attention has been paid on the basic concepts and interpretation of various types of spectra of unknown compounds with reference to their structures.

Table of Contents: Molecular Spectroscopy and Electromagnetic Spectrum: Spectroscopy, Spectrometry / Electromagnetic radiation and electromagnetic spectrum / Quantum theory of electromagnetic radiation / Types of molecular spectroscopy / Infrared Spectroscopy: Introduction / Basic Theory and Double-beam infrared spectrometer / Infrared spectrum: Functional group and finger print regions / Absorption of infrared radiation and molecular vibrations / Fundamental vibrations and overtones / Infrared vibrations-active and forbidden (selection rules) / Intensity and position of infrared absorption bands / Frequency of vibration of a diatomic molecule / Spectral features of major functional groups and interpretation of infrared spectra of some representative compounds / Applications of infrared spectroscopy / Sample and study IR spectral problems / Ultraviolet Spectroscopy: Basic Concepts and Instrumentation: Introduction / The ultraviolet spectrum, electronic energy levels, electronic transitions and selection rules, the origin, general appearance and designation of UV bands, The absorption laws and measurement of absorption intensity, chromophore and anxochrome, bathochromic shift and hypsochronic shift, hyperchromic effect and hypochromic effect, Ultraviolect-visible spectrometer / Factors affecting the position of UV bands / Characteristic absorption of organic compounds / Woodword-Fieser rules for calculating distortion maxima of unsaturated hydrocarbons and a, b-unsaturated carbonyl compounds / Applications of ultraviolet spectroscopy to problems in organic chemistry / Sample and study UV spectral problems / Nuclear Magnetic Resonance Spectroscopy: Introduction / Spin-active nuclei behave as spinning nuclear magnets / Orientation of spinning nuclear magnets in a uniform magnetic field and energy description in NMR phenomenon / Phenomenon of energy absorption resonance and relaxation / Continuous wave (CW) NMR spectrometer / Chemical shift, chemical shift parameters and internal standards / Shielding and deshielding of a nucleus caused by inductive and mesomeric effects / Anisotropic effect / Equivalence and non-equivalence of protons / Spin coupling and spin-spin splitting / Multiple of splitting and relative intensity of lines in a multiplet / Coupling constants and the factors affecting them / Integration / Chemical shift values for various types of protons / Proton spin-spin coupling constants / Interpreation of PMR spectra of some representative compounds / Applications of PMR spectroscopy / Sample and study PMR spectral problems/ Mass Spectrometry: Introduction / Basic theory / The mass spectrometer / Mass spectrum, base peak, Molecular ion and parent ion, Mass-to-charge ratio (m/z), Relative intensity, Fragment ions, Metastable ions, Even-electron rule, Nitrogen rule, Mckafferty rearrangement and ortho effect / fragmentation: Patterns and processes / Characteristic features and fragmentation patterns of various classes of compounds / Some important applications of mass spectrometry / sample and study mass spectral problems / Composite Spectral Problems: Aids to Structural Information / Application of Spectroscopic techniques to structural elucidation / Composite problems with solutions (set 1) / Interpretation of UV, IR, PMR and Mass Spectra for the identification of organic compounds (Set II) / Unsolved problems (Set III) Audience: Graduate and Postgraduate Students of Chemistry, Biochemistry and Pharmaceutical Sciences Deliverable Countries : This product ships to About the Book: The rapid development in spectroscopic techniques, during the last two decades, has revolutionized the approach to organic structure determination. Topics pertaining to molecular spectroscopy such as IR, UV, NMR spectroscopy and Mass spectrometry are increasingly being introduced at the undergraduate level in most of the universities.

This book has been written primarily to stimulate interest of students in molecular spectroscopy and to introduce these four major spectroscopic techniques used for the identification of organic compounds. The treatment of each technique commences with a brief introduction followed by basic theory, instrumentation, basic concepts and applications.

Special attention has been paid on the basic concepts and interpretation of various types of spectra of unknown compounds with reference to their structures. Table of Contents: Molecular Spectroscopy and Electromagnetic Spectrum: Spectroscopy, Spectrometry / Electromagnetic radiation and electromagnetic spectrum / Quantum theory of electromagnetic radiation / Types of molecular spectroscopy / Infrared Spectroscopy: Introduction / Basic Theory and Double-beam infrared spectrometer / Infrared spectrum: Functional group and finger print regions / Absorption of infrared radiation and molecular vibrations / Fundamental vibrations and overtones / Infrared vibrations-active and forbidden (selection rules) / Intensity and position of infrared absorption bands / Frequency of vibration of a diatomic molecule / Spectral features of major functional groups and interpretation of infrared spectra of some representative compounds / Applications of infrared spectroscopy / Sample and study IR spectral problems / Ultraviolet Spectroscopy: Basic Concepts and Instrumentation: Introduction / The ultraviolet spectrum, electronic energy levels, electronic transitions and selection rules, the origin, general appearance and designation of UV bands, The absorption laws and measurement of absorption intensity, chromophore and anxochrome, bathochromic shift and hypsochronic shift, hyperchromic effect and hypochromic effect, Ultraviolect-visible spectrometer / Factors affecting the position of UV bands / Characteristic absorption of organic compounds / Woodword-Fieser rules for calculating distortion maxima of unsaturated hydrocarbons and a, b-unsaturated carbonyl compounds / Applications of ultraviolet spectroscopy to problems in organic chemistry / Sample and study UV spectral problems / Nuclear Magnetic Resonance Spectroscopy: Introduction / Spin-active nuclei behave as spinning nuclear magnets / Orientation of spinning nuclear magnets in a uniform magnetic field and energy description in NMR phenomenon / Phenomenon of energy absorption resonance and relaxation / Continuous wave (CW) NMR spectrometer / Chemical shift, chemical shift parameters and internal standards / Shielding and deshielding of a nucleus caused by inductive and mesomeric effects / Anisotropic effect / Equivalence and non-equivalence of protons / Spin coupling and spin-spin splitting / Multiple of splitting and relative intensity of lines in a multiplet / Coupling constants and the factors affecting them / Integration / Chemical shift values for various types of protons / Proton spin-spin coupling constants / Interpreation of PMR spectra of some representative compounds / Applications of PMR spectroscopy / Sample and study PMR spectral problems/ Mass Spectrometry: Introduction / Basic theory / The mass spectrometer / Mass spectrum, base peak, Molecular ion and parent ion, Mass-to-charge ratio (m/z), Relative intensity, Fragment ions, Metastable ions, Even-electron rule, Nitrogen rule, Mckafferty rearrangement and ortho effect / fragmentation: Patterns and processes / Characteristic features and fragmentation patterns of various classes of compounds / Some important applications of mass spectrometry / sample and study mass spectral problems / Composite Spectral Problems: Aids to Structural Information / Application of Spectroscopic techniques to structural elucidation / Composite problems with solutions (set 1) / Interpretation of UV, IR, PMR and Mass Spectra for the identification of organic compounds (Set II) / Unsolved problems (Set III) Audience: Graduate and Postgraduate Students of Chemistry, Biochemistry and Pharmaceutical Sciences Deliverable Countries : This product ships to About the Book: The rapid development in spectroscopic techniques, during the last two decades, has revolutionized the approach to organic structure determination.

Topics pertaining to molecular spectroscopy such as IR, UV, NMR spectroscopy and Mass spectrometry are increasingly being introduced at the undergraduate level in most of the universities.This book has been written primarily to stimulate interest of students in molecular spectroscopy and to introduce these four major spectroscopic techniques used for the identification of organic compounds.

The treatment of each technique commences with a brief introduction followed by basic theory, instrumentation, basic concepts and applications. Special attention has been paid on the basic concepts and interpretation of various types of spectra of unknown compounds with reference to their structures.

Table of Contents: Molecular Spectroscopy and Electromagnetic Spectrum: Spectroscopy, Spectrometry / Electromagnetic radiation and electromagnetic spectrum / Quantum theory of electromagnetic radiation / Types of molecular spectroscopy / Infrared Spectroscopy: Introduction / Basic Theory and Double-beam infrared spectrometer / Infrared spectrum: Functional group and finger print regions / Absorption of infrared radiation and molecular vibrations / Fundamental vibrations and overtones / Infrared vibrations-active and forbidden (selection rules) / Intensity and position of infrared absorption bands / Frequency of vibration of a diatomic molecule / Spectral features of major functional groups and interpretation of infrared spectra of some representative compounds / Applications of infrared spectroscopy / Sample and study IR spectral problems / Ultraviolet Spectroscopy: Basic Concepts and Instrumentation: Introduction / The ultraviolet spectrum, electronic energy levels, electronic transitions and selection rules, the origin, general appearance and designation of UV bands, The absorption laws and measurement of absorption intensity, chromophore and anxochrome, bathochromic shift and hypsochronic shift, hyperchromic effect and hypochromic effect, Ultraviolect-visible spectrometer / Factors affecting the position of UV bands / Characteristic absorption of organic compounds / Woodword-Fieser rules for calculating distortion maxima of unsaturated hydrocarbons and a, b-unsaturated carbonyl compounds / Applications of ultraviolet spectroscopy to problems in organic chemistry / Sample and study UV spectral problems / Nuclear Magnetic Resonance Spectroscopy: Introduction / Spin-active nuclei behave as spinning nuclear magnets / Orientation of spinning nuclear magnets in a uniform magnetic field and energy description in NMR phenomenon / Phenomenon of energy absorption resonance and relaxation / Continuous wave (CW) NMR spectrometer / Chemical shift, chemical shift parameters and internal standards / Shielding and deshielding of a nucleus caused by inductive and mesomeric effects / Anisotropic effect / Equivalence and non-equivalence of protons / Spin coupling and spin-spin splitting / Multiple of splitting and relative intensity of lines in a multiplet / Coupling constants and the factors affecting them / Integration / Chemical shift values for various types of protons / Proton spin-spin coupling constants / Interpreation of PMR spectra of some representative compounds / Applications of PMR spectroscopy / Sample and study PMR spectral problems/ Mass Spectrometry: Introduction / Basic theory / The mass spectrometer / Mass spectrum, base peak, Molecular ion and parent ion, Mass-to-charge ratio (m/z), Relative intensity, Fragment ions, Metastable ions, Even-electron rule, Nitrogen rule, Mckafferty rearrangement and ortho effect / fragmentation: Patterns and processes / Characteristic features and fragmentation patterns of various classes of compounds / Some important applications of mass spectrometry / sample and study mass spectral problems / Composite Spectral Problems: Aids to Structural Information / Application of Spectroscopic techniques to structural elucidation / Composite problems with solutions (set 1) / Interpretation of UV, IR, PMR and Mass Spectra for the identification of organic compounds (Set II) / Unsolved problems (Set III) Audience: Graduate and Postgraduate Students of Chemistry, Biochemistry and Pharmaceutical Sciences Deliverable Countries : This product ships to (less)

This laboratory manual’s distinctive focus on human molecular biology provides students with the opportunity to analyze and study their own genes while gaining real laboratory experience. The book contains safety precautions; technical tips; simple icons indicating tube orientation in centrifuge and experimental flow charts (less)

Encompassing the areas of bioinformatics and genomics, the text gets behind the hope of the behavioural genetics debate, and covers the social, economic and most importantly, the ethical aspects of research in this filed. Providing current, authoritative coverage of a fast changing field, the book is an invaluable resource on a subject, which has been the centre of attention of scientists for the past fifteen years or so.

With a cohesive subject matter, comprehensive account of the issue, and a coherently written material the book promises to be a source of enlightening knowledge on the fascinating and compelling field for researchers, students and experts." (less)

However, the fifth edition has been updated throughout to reflect major advances in the field since the publication of the fourth edition in 2006, including: - Advances in understanding gene regulation by microRNAs - Histones and epigenetic inheritance - Identification of human disease susceptibility genes by genome-wide associaton scans - Protein import into mitochondria - Induced pluripotent stem cells - Role of autophagy in programmed cell death - Genomic analysis of mutations in human cancers - New Key Experiments: RNA Interference (Chapter 4) and G Protein-Coupled Receptors and Odor Detection (Chapter 15) Deliverable Countries : This product ships to The Cell presents current comprehensive science in a readable and cohesive text that students can master in the course of one semester. This new edition retains the overall organization, themes, and special features of the fourth edition, including Key Experiment and Molecular Medicine essays, chapter sidebars that highlight areas of interest and clinical applications, and end-of-chapter questions with answers at the back of the book.

However, the fifth edition has been updated throughout to reflect major advances in the field since the publication of the fourth edition in 2006, including: - Advances in understanding gene regulation by microRNAs - Histones and epigenetic inheritance - Identification of human disease susceptibility genes by genome-wide associaton scans - Protein import into mitochondria - Induced pluripotent stem cells - Role of autophagy in programmed cell death - Genomic analysis of mutations in human cancers - New Key Experiments: RNA Interference (Chapter 4) and G Protein-Coupled Receptors and Odor Detection (Chapter 15) Deliverable Countries : This product ships to The Cell presents current comprehensive science in a readable and cohesive text that students can master in the course of one semester. This new edition retains the overall organization, themes, and special features of the fourth edition, including Key Experiment and Molecular Medicine essays, chapter sidebars that highlight areas of interest and clinical applications, and end-of-chapter questions with answers at the back of the book.

However, the fifth edition has been updated throughout to reflect major advances in the field since the publication of the fourth edition in 2006, including: - Advances in understanding gene regulation by microRNAs - Histones and epigenetic inheritance - Identification of human disease susceptibility genes by genome-wide associaton scans - Protein import into mitochondria - Induced pluripotent stem cells - Role of autophagy in programmed cell death - Genomic analysis of mutations in human cancers - New Key Experiments: RNA Interference (Chapter 4) and G Protein-Coupled Receptors and Odor Detection (Chapter 15) Deliverable Countries : This product ships to The Cell presents current comprehensive science in a readable and cohesive text that students can master in the course of one semester. This new edition retains the overall organization, themes, and special features of the fourth edition, including Key Experiment and Molecular Medicine essays, chapter sidebars that highlight areas of interest and clinical applications, and end-of-chapter questions with answers at the back of the book.

However, the fifth edition has been updated throughout to reflect major advances in the field since the publication of the fourth edition in 2006, including: - Advances in understanding gene regulation by microRNAs - Histones and epigenetic inheritance - Identification of human disease susceptibility genes by genome-wide associaton scans - Protein import into mitochondria - Induced pluripotent stem cells - Role of autophagy in programmed cell death - Genomic analysis of mutations in human cancers - New Key Experiments: RNA Interference (Chapter 4) and G Protein-Coupled Receptors and Odor Detection (Chapter 15) Deliverable Countries : This product ships to (less)

WHY BUY THIS BOOK?* Unique text providing a core knowledge base for those with little exposure to molecular biological methods* Focuses on the clinical relevance (less)