Objective Chemistry for NEET Vol II-Pearson Education (2018) (informative)
Free download Objective Chemistry for NEET Vol II-Pearson Education (2018)
Volume II
Authors of: Objective Chemistry for NEET Vol II-Pearson Education (2018)
A K Singhal
U K Singhal
Table of Contents in Objective Chemistry for NEET Vol II-Pearson Education (2018)
The table of contents begins with a preface and continues to outline various chapters on essential chemistry topics, providing a detailed examination of the subject matter.
Chapter 4, titled “Chemical Kinetics,” focuses on key concepts such as the rate of reaction, collision theory, and the distinction between elementary and complex reactions. It also covers molecularity and the order of reaction, which are crucial for understanding reaction mechanisms, and includes some important graphs to aid in visualization.
The acknowledgements section follows, where the authors express their gratitude to those who contributed to the material’s development.
In the section “About the Examination,” students are offered insights into how the content aligns with examination requirements. A trend analysis from 2007 to 2017 highlights patterns in exam questions, helping students prioritize important topics. This section also includes a list of important facts to memorize for efficient study, followed by a solved 2017 question paper that serves as a valuable resource for exam preparation.
Chapter 1, “Solid State,” introduces general properties and the types of solids. It explains Bragg’s equation, used to analyze crystal structures, and discusses the unit cell, a fundamental building block of crystalline materials. The chapter also includes a mathematical analysis of cubic systems, explains how constituents are packed in crystals, and examines imperfections in solids. Additionally, it explores both magnetic and electrical properties of solids, which have practical applications in various technologies.
Chapter 2, “Solutions,” introduces the concept of solutions, addressing topics such as vapor pressure, Raoult’s law, and colligative properties, which describe how the physical properties of solutions change with concentration.
Chapter 3, “Electrochemistry,” covers basic electrochemical concepts, including the balancing of redox reactions and the process of electrolysis. It explores Faraday’s laws and introduces key terms and concepts related to electrochemistry. The chapter also discusses electrochemical cells, the significance of the electrochemical series, and concentration cells. In addition, it touches on some commercial cells and the phenomenon of metal rusting or corrosion, which has significant implications in material science.
Chapter 5, “Surface Chemistry,” examines the process of adsorption, the role of catalysts, and the colloidal state, all of which are essential in both industrial and biological contexts.
Chapter 6, “General Principles and Processes of Isolation of Elements,” covers the occurrence of elements and the extraction processes for metals like iron, copper, silver, zinc, mercury, tin, and lead. It provides details on the metallurgy of these metals and their oxides, halides, and sulphates. The chapter also discusses key compounds such as ferric oxide (Fe₂O₃), cupric oxide (CuO), and others, along with their properties and applications in industry.
Chapter 7A, “The p-Block Elements – Nitrogen Family,” focuses on Group V elements and includes a detailed discussion on nitrogen (N₂), oxides of nitrogen, and compounds like ammonia (NH₃), nitrous acid (HNO₂), and nitric acid (HNO₃). It also covers the allotropic forms of phosphorus and the properties of its oxides and acids, including phosphorous pentaoxide (P₄O₁₀), hypo phosphorous acid (H₃PO₂), and orthophosphoric acid (H₃PO₄).
Chapter 7B, “The p-Block Elements – Oxygen Family,” delves into the chalcogen group (Group VI elements), covering oxygen (O₂), its oxides, and ozone (O₃), along with sulfur and its compounds, such as hydrogen sulphide (H₂S), sulfur dioxide (SO₂), sulfur trioxide (SO₃), and sulfuric acid (H₂SO₄).
Chapter 7C, “The p-Block Elements – Halogen Family,” covers Group VII elements, including fluorine (F₂), chlorine, bromine, and iodine. It discusses their hydro acids and oxides, such as hypochlorous acid (HClO), and describes various methods of preparation.
In Chapter 7D, “The p-Block Elements – Inert and Noble Gases,” Group VIII elements like xenon and its compounds, including xenon difluoride (XeF₂), xenon tetrafluoride (XeF₄), and xenon hexafluoride (XeF₆), are explored.
Chapter 8, “The d- and f-Block Elements,” explains the trends in the chemistry of transition metals, covering compounds like potassium dichromate (K₂Cr₂O₇). It also addresses the properties of the inner transition elements and their dependence on standard reduction potential values.
Chapter 9, “The p-Block Elements – Carbon Family,” introduces coordination chemistry, covering the nomenclature of coordination compounds and the concept of isomerism, including structural and stereo isomerism. The chapter further explains bonding in complexes using valence bond theory and crystal field theory.
Chapter 10, “Haloalkanes and Haloarenes,” covers key organic compounds such as carbon tetrachloride (CCl₄) and Teflon, explaining their structure, properties, and uses in various industries.
Chapter 11, “Alcohols, Phenols, and Ethers,” explores alcohols, phenols, and ethers, focusing on their chemical properties, reactions, and practical applications in industrial chemistry.
Chapter 12, “Aldehydes, Ketones, and Carboxylic Acids,” discusses aldehydes and ketones, including benzaldehyde, as well as carboxylic acids like benzoic acid, dicarboxylic acid, and others. The chapter highlights their structures and the importance of these compounds in organic chemistry.
Chapter 13, “Amines,” covers important nitrogen-containing compounds such as nitro compounds, cyanides, and isocyanides, which play a significant role in both biological and industrial processes.
Chapter 14, “Biomolecules,” focuses on the chemistry of biological molecules, covering topics such as the cell, carbohydrates, monosaccharides, amino acids, proteins, enzymes, nucleic acids, lipids, vitamins, and hormones, all of which are essential for understanding life processes.
Chapter 15, “Polymers,” provides an introduction to polymers, explaining their classification and focusing on free radical addition polymerization, which is crucial in the production of everyday materials.
Chapter 16, “Chemistry in Everyday Life,” explores the application of chemistry in fields such as medicine and dyes, showcasing the impact of chemistry on daily life.
The contents conclude with a series of mock test papers and sample papers, which serve as practice material for students preparing for their exams. These resources aim to help students grasp the subject thoroughly and perform well in examinations.
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