Pearson guide to inorganic chemistry for IIT JEE by Atul Singhal (informative)
Free download Pearson guide to inorganic chemistry for IIT JEE by Atul Singhal
Authors of: Pearson guide to inorganic chemistry for IIT JEE by Atul Singhal
Atul Singhal
Table of Contents in Pearson guide to inorganic chemistry for IIT JEE by Atul Singhal
This book serves as a comprehensive resource for students preparing for the IIT JEE, focusing on Inorganic Chemistry. It is designed to cover all the essential topics, concepts, and principles that are crucial for success in this competitive exam. The content is organized into well-structured chapters, with each chapter providing a deep dive into specific areas of Inorganic Chemistry. The book also includes numerous examples, practice problems, and mock tests to help students solidify their understanding and improve their problem-solving skills.
Chapter 1: Introduction to Inorganic Chemistry
The first chapter introduces the reader to Inorganic Chemistry, defining its scope and significance in the context of the IIT JEE exam. It begins with a discussion on the basic concepts, including atomic structure and the periodic table, which are foundational to understanding more complex topics. The chapter also covers chemical bonding, explaining the different types of bonds—ionic, covalent, and metallic—along with their characteristics and importance. This chapter sets the stage for more detailed exploration in the subsequent chapters, offering study tips on how to effectively approach Inorganic Chemistry.
Chapter 2: Periodic Table and Periodicity
In the second chapter, the book delves into the periodic table, a cornerstone of Inorganic Chemistry. It begins with a historical overview of the development of the periodic table, leading to the modern periodic law. The chapter then explores periodic trends, such as atomic radius, ionization energy, electron affinity, and electronegativity, providing a detailed analysis of how these properties change across periods and groups. The classification of elements into s-, p-, d-, and f-blocks is also discussed, along with the significance of each block. The chapter emphasizes understanding the principles behind periodicity and how these trends affect chemical reactivity and bonding.
Chapter 3: Chemical Bonding and Molecular Structure
Chemical bonding is the focus of the third chapter, which examines the different types of bonds—ionic, covalent, and metallic—in greater depth. The chapter explains the concepts of bond formation, bond energy, bond length, and bond angles, all of which are crucial for understanding molecular structure. The chapter also covers advanced topics like hybridization, resonance, and molecular orbital theory, providing a thorough understanding of how atoms combine to form molecules and the shapes they adopt. This chapter includes numerous diagrams and examples to help students visualize molecular structures and comprehend the principles of chemical bonding.
Chapter 4: Coordination Compounds
The fourth chapter introduces coordination chemistry, a vital area of Inorganic Chemistry. It starts with the basic concepts of coordination compounds, including ligands, coordination number, and the geometry of complexes. The chapter then discusses the nomenclature of coordination compounds, as well as the principles of isomerism in these compounds. Theories such as Valence Bond Theory (VBT) and Crystal Field Theory (CFT) are covered in detail, providing insights into the electronic structure of coordination compounds and their magnetic and spectral properties. The chapter concludes with examples of coordination compounds in biological systems and their industrial applications.
**Chapter 5: s-Block Elements**
In the fifth chapter, the book focuses on the s-block elements, which include the alkali metals and alkaline earth metals. The chapter begins with a discussion on the general properties of these elements, such as their atomic and ionic sizes, ionization energies, and reactivity. The chemistry of specific elements like sodium, potassium, magnesium, and calcium is explored in detail, including their common compounds, reactions, and applications. The chapter also highlights the importance of s-block elements in various industries and their biological significance.
**Chapter 6: p-Block Elements**
The sixth chapter covers the p-block elements, which include groups 13 to 18 of the periodic table. This chapter discusses the general properties of these elements, including their variable oxidation states, electronegativity, and covalent bonding tendencies. The chemistry of specific groups, such as the boron family, carbon family, nitrogen family, oxygen family, halogens, and noble gases, is examined in detail. The chapter also explores the unique characteristics of these elements, including the inert pair effect, catenation, and allotropy, with a focus on their industrial and environmental applications.
**Chapter 7: d- and f-Block Elements**
In the seventh chapter, the focus shifts to the d- and f-block elements, also known as transition metals and inner transition metals. The chapter begins with a discussion on the electronic configuration, oxidation states, and complex formation tendencies of these elements. It also covers the catalytic properties of transition metals, as well as their magnetic behavior and color properties. The chapter includes a detailed examination of the lanthanides and actinides, exploring their unique chemistry and the challenges associated with their extraction and utilization.
Chapter 8: Metallurgy
The eighth chapter introduces the principles of metallurgy, the science of extracting and refining metals. It covers the various processes involved in metallurgy, including concentration of ores, reduction, and refining. The chapter discusses the thermodynamic and electrochemical principles underlying these processes, as well as the techniques used in the extraction of specific metals like iron, copper, and aluminum. The environmental impact of metallurgical processes and the importance of recycling metals are also highlighted.
Chapter 9: Environmental Chemistry
The final chapter of the book addresses the impact of chemistry on the environment, with a focus on the role of inorganic substances. Topics include the chemistry of pollutants, such as oxides of nitrogen, sulfur, and carbon, as well as heavy metals. The chapter discusses the effects of these pollutants on air, water, and soil, and explores the principles behind green chemistry and sustainable practices. The chapter concludes with a discussion on the role of inorganic chemistry in addressing environmental challenges and developing eco-friendly technologies.
This book aims to provide a solid foundation in Inorganic Chemistry, with a focus on clarity, conceptual understanding, and problem-solving skills, making it an indispensable resource for IIT JEE aspirants.
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Free download Pearson guide to inorganic chemistry for IIT JEE by Atul Singhal
You may also like to download “Fundamental Concepts Of Inorganic Chemistry By Dr. C. Viswanatha”.
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