{"id":13124,"date":"2013-02-06T17:00:32","date_gmt":"2013-02-06T11:30:32","guid":{"rendered":"http:\/\/www.kopykitab.com\/blog\/?p=13124"},"modified":"2013-02-06T17:00:32","modified_gmt":"2013-02-06T11:30:32","slug":"chemistry-for-engineers-ebook","status":"publish","type":"post","link":"https:\/\/www.kopykitab.com\/blog\/chemistry-for-engineers-ebook\/","title":{"rendered":"Chemistry for Engineers ebook"},"content":{"rendered":"

Chemistry for Engineers ebook<\/strong><\/span><\/a><\/h1>\n

Engineering Chemistry ebook download
\n<\/strong><\/span><\/a><\/h2>\n

Description:<\/span><\/strong>\u00a0This book is specially designed for B.E. and B.Tech. students of all branches of engineering and technology. Efforts have been made to explain the fundamental concepts in simple but comprehensive manner so that B.Sc. Pass and Honours students can use this book as a reference. The unique strength of this book is the mathematical and scientific approach. Mathematical problems and model questions, including multiple-choice questions, short-answer-type questions and long-answer-type questions, are provided in Appendix II of this book as exercise for students.<\/span><\/p>\n

Contents:<\/span><\/strong>\u00a0Chapter 1: Thermodynamics \u2013 I<\/strong>\u00a0\u2022 Introduction \u2022 Classification of thermodynamic process \u2022 The zero-th law of thermodynamics \u2022 1st law of thermodynamics \u2022 Equation of state \u2022 Work \u2022 Specific heat \u2022 Enthalpy (H) \u2022 P-V-T relations in adiabatic process \u2022 Calculation of work \u2022 Reversible and irreversible processes \u2022 Heat engine and entropy \u2022 Third law of thermodynamics \u2022 Calculation of entropy \u2022 Other state functions \u2022 Gibb\u2019s Helmholtz equation \u2022 Condition of spontaneity \u2022 Phase transition Clasius-Clayperon equation \u2022 Maxwell\u2019s relations \u2022 Fugacity \u2022 Dependence of specific heat on volume and pressure \u2022 Partial molar quantities and chemical potential \u2022 Thermodynamic properties of ideal gas mixture \u2022 Raoult\u2019s law and Henry\u2019s law \u2022 Application of Gibb\u2019s-Duhem equation \u2022 Van\u2019t Hoff equation \u2022 Thermochemistry \u2022 Introduction \u2022 Case \u2013 I: Reactions occurring at constant temperature and pressure \u2022 Applications of Hess\u2019s law \u2022 Case \u2013 II: Reactions occurring with the change in temperature at constant pressure<\/span><\/p>\n

Chapter 2: Thermodynamics \u2013 II<\/strong>\u00a0\u2022 Properties of fluids and equation of state \u2022 Triple point and critical point \u2022 Equation of state \u2022 Thermodynamic properties \u2022 Residual property \u2022 Two-phase system \u2022 Energy in flow process \u2022 Conservation of energy \u2022 Flow through a nozzle \u2022 Expanders and Compressors \u2022 Power cycles \u2022 Introduction \u2022 Steam engine \u2022 Internal combustion engines \u2022 Gas turbine power plant \u2022 Refrigeration cycle \u2022 Carnot cycle \u2022 Vapour-compression cycle \u2022 Absorption refrigeration<\/span><\/p>\n

Chapter 3: Chemical Kinetics<\/strong>\u00a0\u2022 Introduction \u2022 Molecularity and order \u2022 Rate equations for different types of reactions \u2022 Irreversible 1st order reaction \u2022 Irreversible 2nd order reactions \u2022 Irreversible 3rd order reactions \u2022 Zero order irreversible reactions \u2022 Examples of negative and fractional order reactions and catalyst \u2022 Irreversible nth-order reaction \u2022 Methods of determination of order of a reaction \u2022 Significances of half-life period \u2022 Elementary reactions \u2022 Study of reaction mechanism \u2022 Mechanism to explain unimolecular reaction \u2022 Kinetic study of some special reactions \u2022 Pseudo 1st order reactions \u2022 Competing reactions\/parallel reactions\/side reactions \u2022 Consecutive reactions \u2022 Opposing reactions \u2022 Theory of reaction rate \u2022 Factors influencing the reaction rate<\/span><\/p>\n

Chapter 4: Catalysis<\/strong>\u00a0\u2022 Definition \u2022 Classification \u2022 Other type of classification \u2022 Auto catalysis \u2022 Acid-base catalysis \u2022 Enzyme catalysis \u2022 Promoters and inhibitors \u2022 Mechanism of catalytic action in homogeneous catalysis system \u2022 Theory of heterogeneous catalysis system \u2022 Bimolecular reaction: both reactants are adsorbed \u2022 Bimolecular reaction: one reactant is absorbed \u2022 Primary Kinetic salt effect<\/span><\/p>\n

Chapter 5: Electrochemistry<\/strong>\u00a0\u2022 Theory of electrolytes \u2022 Shortcomings of Arrhenius theory \u2022 Activity (a) and activity coefficient (g) of electrolytes \u2022 Electrolysis \u2022 Conductor \u2022 Faraday\u2019s Laws \u2022 Electrical conductance of electrolytes \u2022 Conductivity \u2022 Equivalent conductivity \u2022 Kohlrausch\u2019s law \u2022 Mobility \u2022 Effect of solvent on conductivity \u2022 Mobility of hydroxonium (H3O+) and hydroxyl (OH\u2013) ions \u2022 Relation between ionic mobility and concentration \u2022 Ionic mobility and temperature \u2022 Applications of Kohlrausch\u2019s law \u2022 Transport numbers of ions \u2022 Method of determination of transport number \u2022 Dependence of transport number on concentration of electrolyte and temperature \u2022 Conductometric titrations \u2022 Electrochemical cells and electromotive force \u2022 Electrochemical cell \u2022 Thermodynamics of electrochemical cells \u2022 Nernst equation for single electrode potential and electrochemical cell \u2022 Classification of electrodes \u2022 Reference electrodes \u2022 Applications of single electrode potential \u2022 Concentration cell and accumulator \u2022 Concentration cell \u2022 Liquid junction potential or diffusion potential \u2022 Determination of activity and activity coefficient \u2022 Decomposition voltage and over-voltage \u2022 Rule of discharging of ion \u2022 Over-voltage \u2022 Theories of hydrogen over-voltage \u2022 Accumulators \u2022 Ionic equilibrium in aqueous solutions \u2022 Debye-H\u00fcckel limiting law \u2022 Acids and bases \u2022 Ionic product of water \u2022 pH \u2022 Dissociation of weak acid \u2022 Salt hydrolysis \u2022 Indicators \u2022 pH-metric titration \u2022 Solubility product<\/span><\/p>\n

Chapter 6: Solid State Chemistry<\/strong>\u00a0\u2022 Crystallography \u2022 Unit cell \u2022 Atomic radius \u2022 Effective number of atoms \u2022 Atomic packing factor (APF) \u2022 Density of a cubic crystal \u2022 Fundamental laws of crystallography \u2022 Miller indices and interplanar spacing \u2022 Bragg\u2019s law \u2022 Crystal imperfections\/defects \u2022 Stoichiometric defects \u2022 Non-stoichiometric defects \u2022 Schr\u00f6dinger wave equation, energy states and Fermi energy \u2022 Schr\u00f6dinger wave equation \u2022 Sommerfeld theory \u2022 Bragg\u2019s law for electron waves \u2022 Conductors, semi-conductors and insulators \u2022 Intrinsic semiconductor \u2022 Extrinsic semiconductor \u2022 Mobility and conductivity \u2022 Junction diode and transistor \u2022 Junction diode \u2022 Zener diode \u2022 Tunnel diode \u2022 Junction transistor \u2022 Photodiode and photovoltaic cell \u2022 Rectifiers<\/span><\/p>\n

Chapter 7: General and Co-ordination Chemistry<\/strong>\u00a0\u2022 Section\u2013I Chemical Bonding \u2022 General Chemistry \u2022 Atom and molecule \u2022 Atomic spectra \u2022 Filling up of atomic orbitals by electrons \u2022 Matter waves and Schr\u00f6dinger wave equation \u2022 Uncertaintyprinciple from Schr\u00f6dinger wave equation \u2022 Validity of Neil Bohr\u2019s theory \u2022 Concept of molecular orbital \u2022 Characteristics features of MO theory \u2022 Characteristics features of Valence Bond (VB) theory \u2022 Periodic table \u2022 Polarisability and dipole moment \u2022 Chemical bond \u2022 (A) Hybridisation \u2022 Facts, problems and explanation \u2022 Section\u2013II Co-ordination Chemistry \u2022 Co-ordination Chemistry \u2022 Complex ion\/compound and Werner\u2019s theory \u2022 Ligand and its classification \u2022 Isomerism in coordination compounds \u2022 Nomenclature of coordination compounds \u2022 Chelates and inner metallic complexes \u2022 Bonding and characteristic features of complex compounds \u2022 Crystal field stabilization energy (CFSE) \u2022 John-Teller distortion and square planar complex \u2022 Magnetic Behaviour \u2022 p-acid ligand \u2022 Factors influencing complex formation<\/span><\/p>\n

Chapter 8: General Organic and Polymer Chemistry<\/strong>\u00a0\u2022 Section\u2013I Organic Chemistry \u2022 Introduction \u2022 Reaction mechanism \u2022 Controlling factors \u2022 Effect of hybridization on acidity and electronegativity \u2022 Classification of organic reactions \u2022 Substitution reactions \u2022 Elimination reactions \u2022 Addition reactions \u2022 Aromatic substitution reactions \u2022 Some rearrangement reactions with mechanism \u2022 Section\u2013II Polymer Chemistry \u2022 Introduction \u2022 Classification of polymers \u2022 Tacticity \u2022 Copolymer \u2022 Intermolecular forces in polymer \u2022 Glass transition temperature (Tg) \u2022 Crystalline and amorphous polymers \u2022 Crystalline polymers \u2022 Amorphous polymers \u2022 Semi-crystalline polymers \u2022 Percent crystallinity in a semi-crystalline polymer \u2022 Factory influencing the crystallinity \u2022 Inorganic polymers \u2022 High temperature polymers \u2022 Conducting polymers \u2022 Biopolymers \u2022 Vulcanization \u2022 Preparation, structure and uses of some common polymers \u2022 Thermosetting resins \u2022 Fibres<\/span><\/p>\n

Chapter 9: Fuels and Combustion<\/strong>\u00a0\u2022 Definition \u2022 Classification \u2022 Some definitions \u2022 Calculation of calorific value \u2022 Solid fuel \u2022 Analysis of coal \u2022 Carbonization of coal \u2022 Liquid Fuel \u2022 Classification \u2022 Fractional distillation of crude petroleum \u2022 Gasoline\/Petrol \u2022 Knocking in petrol engine \u2022 Knocking in diesel fuel \u2022 Aviation fuel \u2022 Biodiesel \u2022 Gaseous fuel \u2022 Combustion of fuel<\/span><\/p>\n

Chapter 10: Characterization of Organic Compounds<\/strong>\u00a0\u2022 The ultraviolet spectrum \u2022 Introduction \u2022 Electronic transitions \u2022 Identification of organic compounds \u2022 Instrumentation \u2022 Applications \u2022 The infrared spectroscopy \u2022 Applications \u2022 Nuclear magnetic resonance (NMR) spectroscopy \u2022 Introduction \u2022 Various aspects of NMR-spectrum \u2022 Applications<\/span><\/p>\n

Chapter 11: Phase Equilibrium<\/strong>\u00a0\u2022 Phase rule \u2022 Single component system \u2022 Two-component liquid-vapour system \u2022 Homogeneous mixture \u2022 Azeotropic mixture \u2022 Binary phase diagram for solid solutions \u2022 Solid solution \u2022 Completely miscible solid solutions \u2022 Metals are miscible in liquid phase but immiscible in solid phase \u2022 Metals are miscible in liquid phase but only partially miscible in \u2022 solid phase \u2022 Binary solid solutions having peritectic point \u2022 Compound forming alloys \u2022 Other eutectic systems \u2022 Solid state reactions \u2022 Precipitation reaction \u2022 Ternary systems \u2022 Iron-Carbon diagram \u2022 Allotropy \u2022 Composition of Fe\/C alloy \u2022 Heating and cooling of steel \u2022 Iron-Carbon alloys<\/span><\/p>\n

Chapter 12: Corrosion<\/strong>\u00a0\u2022 Definition \u2022 Classification \u2022 Chemical or dry corrosion \u2022 Electrochemical corrosion \u2022 Other forms of corrosion \u2022 Factors influencing corrosion \u2022 Nature of metal \u2022 Nature of the corroding environment \u2022 Protective measure against corrosion \u2022 Modification of the environment \u2022 Modification of the composition of alloy \u2022 Metal coatings \u2022 Cathodic protection \u2022 Inorganic coatings \u2022 Inhibitors \u2022 Organic coatings \u2022 Explain the following<\/span><\/p>\n

Chapter 13: Environment and Pollution<\/strong>\u00a0\u2022 Environmental science \u2022 Pollution \u2022 Pollutant \u2022 Acid rain \u2022 Hydrocarbons \u2022 Aerosols \u2022 Photochemical smog \u2022 Noise pollution \u2022 Water Pollution \u2022 Municipal waste water treatment \u2022 Primary treatment plant \u2022 Secondary treatment plant \u2022 Tertiary treatment plant \u2022 Lithosphere \u2022 Green house effect \u2022 Ozone layer depletion<\/span><\/p>\n

Chapter 14: Hardness of Water<\/strong>\u00a0\u2022 Water hardness \u2022 Types of hardness \u2022 Temporary hardness \u2022 Permanent hardness \u2022 Unit of hardness \u2022 Estimation of total hardness of water using complexometric titration \u2022 Treatment of hard water \u2022 External treatment \u2022 Internal treatment \u2022 Alkalinity of water \u2022 Problems on boiler \u2022 Boiler corrosion \u2022 Caustic embrittlement \u2022 Scale and sludge \u2022 Carry over \u2022 Numerical problems on water softening by lime-soda process \u2022 Numerical problems on alkalinity \u2022<\/span><\/p>\n

About the Author:<\/span>\u00a0<\/strong><\/span><\/p>\n

Abhijit Mallick\u00a0<\/strong>is Assistant Professor at the Department of Chemistry, Academy of Technology, affiliated to West Bengal University of Technology. He completed his B.Sc. Chemistry Honours from Ramakrishna Mission Vivekananda Centenary College, affiliated to Calcutta University and obtained his postgraduate degrees from University Colleges of Science and Technology, Calcutta University. He earned his Ph.D. from the Indian Institute of Technology, Kharagpur. He has published several international papers and a textbook entitled Principles of Physical Metallurgy. He is a member of the Institute of Engineers (India). His areas of interest include Applied Chemistry, Materials Science, Environmental Pollution Control and Management.<\/span><\/p>\n

\u00a0<\/span><\/p>\n

To read this eBook please click this link<\/span><\/a><\/p>\n","protected":false},"excerpt":{"rendered":"

Chemistry for Engineers ebook Engineering Chemistry ebook download Description:\u00a0This book is specially designed for B.E. and B.Tech. students of all branches of engineering and technology. Efforts have been made to explain the fundamental concepts in simple but comprehensive manner so that B.Sc. Pass and Honours students can use this book as a reference. The unique … Read more<\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"fifu_image_url":"","fifu_image_alt":""},"categories":[4773,4776],"tags":[],"amp_enabled":true,"_links":{"self":[{"href":"https:\/\/www.kopykitab.com\/blog\/wp-json\/wp\/v2\/posts\/13124"}],"collection":[{"href":"https:\/\/www.kopykitab.com\/blog\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/www.kopykitab.com\/blog\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/www.kopykitab.com\/blog\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.kopykitab.com\/blog\/wp-json\/wp\/v2\/comments?post=13124"}],"version-history":[{"count":0,"href":"https:\/\/www.kopykitab.com\/blog\/wp-json\/wp\/v2\/posts\/13124\/revisions"}],"wp:attachment":[{"href":"https:\/\/www.kopykitab.com\/blog\/wp-json\/wp\/v2\/media?parent=13124"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/www.kopykitab.com\/blog\/wp-json\/wp\/v2\/categories?post=13124"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/www.kopykitab.com\/blog\/wp-json\/wp\/v2\/tags?post=13124"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}