Thermodynamics Books
Physics for Scientists and Engineers with modern Physics ,10th Edition
Author: RA Serway, JW Jewitt
School: University of Ibadan
Department: Science and Technology
Course Code: PHY101
Topics: Modern physics, physics, measurement, motion, vectors, laws of motion, motion, circular motion, Energy of a System, energy, Linear Momentum, Collisions, rotation of rigid bodies, Angular Momentum, Static Equilibrium, Elasticity, Universal Gravitation, Fluid Mechanics, Oscillations, Mechanical Waves, Oscillatory Motion, wave motion, Superposition, Standing Waves, thermodynamics, temperature, Law of Thermodynamics, kinetic theory of gases, heat engines, entropy, electricity, magnetism, electric fields, Continuous Charge Distributions, Gauss’s Law, electric potential, Capacitance, Dielectrics, current, resistance, Direct-Current Circuits, magnetic fields, Faraday’s Law, inductance, Alternating-Current Circuits, electromagnetic waves, light, optics, image formation, wave optics, Diffraction Patterns, Polarization, Quantum Physics, relativity, Quantum Mechanics, atomic physics, Molecules, Solids, Nuclear Physics, Particle Physics, Cosmology
Physical chemistry, sixth edition
Author: Ira Levine
School: University of Uyo
Department: Science and Technology
Course Code: CHM411
Topics: Thermodynamics, Material equilibrium, Standard thermodynamics functions, Reaction equilibrium in ideal gas mixtures, one-component phase equilibrium, real gas, solutions, non ideal solutions, Reaction equilibrium in nonideal systems, multicomponent phase equilibrium, Electrochemical systems, Kinetic theory of gases, transport process, reaction kinetics, quantum mechanics, atomic structure, molecular electronic structure, spectroscopy, photochemistry, statistical mechanics, theories of reaction rates, solid, liquid
Schaum's Outline of College Chemistry ,Ninth edition
Author: Jerome Rosenberg, Lawrence Epstein, Peter Krieger
School: Ahmadu Bello University, Zaria
Department: Science and Technology
Course Code: CHEM131
Topics: temperature, temperature units, atomic mass, molar mass, molecular mass, relative atomic mass, emperical formula, chemical formula, limiting reactant, chemical reactions, gas, gas volume, pressure, standard atmospheric pressure, pressure measurement, gas law, Boyle's law, Charles's law, Gay-lussac law, combined gas law, ideal gas, ideal gas law, kinetic theory, avogardo hypothesis, molar volume, gas volume, gas stoichiometry, thermochemistry, heat, heat capacity, calorimetry, energy, enthalphy, thermochemical reactions, atomic structure, particle, waves, Pauli principle, Periodic law, Aufbau principle, Electron configuration, Atomic radii, ionization energy, electron affinity, chemical bonding, molecular structure, ionic compounds, covalence, valence-bond representation, molecular-orbital representation, π BONDING, MULTICENTER π BONDS, coordination compounds, isomerism, solid, liquid, crystals, crystal forces, Ionic Radii, oxidation-reduction, oxidation number, oxidizing agents, reducing agents, ionic notation, balancing equations, concentration, concentration scales, concentration units, dilution, volumetric standard solutions, vapor pressure lowering, freezing-point lowering, boiling-point lowering, Boiling-point elevation, osmotic pressure, Law of distribution, isomerism, functional groups, organic chemistry, biochemistry, thermodynamics, chemical equilibrium, Equilibrium constant, Le Chatelier's principle, acid, base, hydrolysis, buffer solution, indicators, weak polyprotic acids, tittration, complex ions, coordination complexes, electrochemistry, solubility product, electrical units, electrolysis, voltaic cells, standard half-cell potentials, free energy, Nonstandard potentials, rate of reactions, rate constant, energy of activation, Nuclear process, Binding energy, nuclear equations, radiochemistry
Chemical Principles (Part 1), 6th edition
Author: Peter Atkins, Loretta Jones, Leroy Laverman
School: Edo University
Department: Science and Technology
Course Code: CHM111
Topics: atoms, radiation, atomic spectra, quantum theory, uncertainty principle, atomic orbitals, electron spin, hydrogen atom, chemical bonds, ionic bonds, covalent bonds, VSEPR model, valence-bond theory, molecular orbital theory, Gas laws, gas density, molecular motion, real gases, liquid, solids, intermolecular forces, liquid structure, solid structure, liquid crystals, inorganic materials, metallic materials, hard materials, nanomaterials, thermodynamics, enthalpy, heating curves, Born-Haber cycle, bond enthalpies, entropy, Gibbs free energy, physical equilibria, solubility, colligative properties, binary liquid mixtures
Author: David Metzler
School: Edo University
Department: Medical, Pharmaceutical and Health science
Course Code: BCH220, BCH312, BCH316
Topics: Biochemistry, amino acids, peptides, proteins, sugars, polysaccharides, glycoproteins, nucleic acids, thermodynamics, biochemical equilibria, macromolecules, lipids, membranes, cell coats, enzymes, metabolism, enzymatic activity regulation, Enzymatic addition, Enzymatic elimination, Enzymatic condensation, isomerization, coenzymes, Electron Transport, Oxidative Phosphorylation, Hydroxylation, Chemistry of Movement, Carbohydrate Metabolism Pathways, Lipid Metabolism, Polyprenyl Compounds, Isoprenoid Compounds, Aromatic Compounds metabolism, Nucleic Acid Bases, Biochemical Genetics, gene transcription, DNA Organization, DNA Replication, DNA Transposition, DNA Repair, ribosomes, Biochemical Defense Mechanisms, growth, development
Author: D'Ola
School: Federal University of Agriculture, Abeokuta
Department: Science and Technology
Course Code: CHM101
Topics: Thermochemistry, thermodynamics, Enthalpies of Reactions, heat capacity, specific heat, Arrhenius Equation, Hess's law
Author: CHM111
School: Federal University of Technology, Minna
Department: Science and Technology
Course Code: CHM111
Topics: Heat, thermodynamics, Enthalphy
Organic Chemistry, 6th edition
Author: Janice Gorzynski Smith
School: Edo University
Department: Science and Technology
Course Code: CHM123
Topics: Organic Chemistry, periodic table, bonding, Lewis structures, isomers, octet rule, hybridization, ethane, ethylene, acetylene, bond length, bond strength, Electronegativity, Bond Polarity, oxybenzone, Brønsted–Lowry Acids, Brønsted–Lowry Bases, acid strength, Aspirin, organic molecules, functional groups, intermolecular forces, alkanes, cycloalkanes, Substituted Cycloalkanes, lipids, Stereochemistry, starch, cellulose, glass chemistry, chiral molecules, achiral molecules, Disastereomers, meso compounds, Disubstituted Cycloalkanes, isomers, Enantiomers, organic reactions, bond breaking, bond making, Bond Dissociation Energy, thermodynamics, Enthalpy, Entropy, energy diagrams, kinetics, catalysts, enzymes, Alkyl Halides, Nucleophilic Substitution, Polar Carbon–Halogen Bond, nucleophile, Carbocation Stability, Hammond postulate, Biological Nucleophilic Substitution, Vinyl Halides, Aryl Halides, Organic Synthesis, elimination reactions, Alcohols, Ethers, Carbocation Rearrangements, Tosylate, Thials, sulfides, Alkenes, Addition Reactions, Hydrohalogenation, Lipids, Markovnikov's Rule, Halohydrin Formation, Epoxidation, alkenes, mass spectrometry, infrared spectroscopy, electromagnetic radiations, Nuclear Magnetic Resonance Spectroscopy, Magnetic Resonance Imaging, radical reactions, Conjugated Dienes, Electron Delocalization, Diels–Alder Reaction, Benzene, Aromatic Compounds, Benzene's Unusual Stability, Buckminsterfullerene, Electrophilic Aromatic Substitution, Friedel–Crafts Alkylation, Friedel–Crafts Acylation, Nucleophilic Aromatic Substitution, Carbonyl Chemistry, Organometallic Reagents, Aldehydes, Keton, Nucleophilic Addition, Carboxylic Acids, Nitriles, Aspirin, Arachidonic Acid, Prostaglandins, enols
Physics for Scientists and Engineers with Modern Physics, 4th edition
Author: Douglas Giancoli
School: Edo University
Department: Science and Technology
Course Code: PHY121
Topics: measurement, estimating, motion, kinematics, dynamics, friction, circular motion, drag forces, gravitation, Newton's synthesis, work, energy, conservation of energy, linear momentum, rotational motion, angular momentum, static equilibrium, elasticity, fracture, fluids, oscillators, wave motion, sound, temperature, thermal expansion, ideal gas law, kinetic theory of gases, thermodynamics, electric charge, electric field, Gauss law, electric potential, capacitance, dielectrics, electric energy storage, electric currents, resistance, DC circuits, magnetism, magnetic field sources, electromagnetic induction, inductance, electromagnetic oscillations, AC circuits, Maxwell's equations, electromagnetic waves, light, reflection, refraction, lenses, optical instruments, wave nature of light, diffraction, polarization, quantum theory, quantum mechanics, molecules, solids, nuclear physics, radioactivity, nuclear energy, elementary particles
Schaum’s outline of analytical chemistry
Author: Adon Gordus
School: Edo University
Department: Science and Technology
Course Code: CHM221
Topics: analytical chemistry, stoichiometry, statistics, probability, Gibbs free energy, strong acid, strong base, titration, weak acid, weak base titrations, pH color indicators, polyprotic weak acids, pH approximations, precipitates, complex ion equilibria, electrochemical cells, galvanic cells, cell thermodynamics, potentiometric titrations, phase separations, chromatography, fractional distillation, solvent extractions, chromatographic separations, spectral measurements, Beer's law, photometric titrations, radioactivity, decay rate equations, neutron activation, radioactivity statistics
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