Science Exam Reviewer: Electronic Structure & Chemical Bonding PDF

Summary

This document is a reviewer for science topics including electronic structure of matter and chemical bonding. It covers basic concepts like atomic structure, quantum numbers, electron configurations, periodic trends, and various types of chemical bonds.

Full Transcript

**SCIENCE EXAM REVIEWER** **[Electronic Structure of Matter]** ### **I. Overview of the Electronic Structure of Matter** - **Electronic Structure** refers to how electrons are arranged in atoms, ions, or molecules. - It determines chemical properties, reactivity, bonding behavior, and...

**SCIENCE EXAM REVIEWER** **[Electronic Structure of Matter]** ### **I. Overview of the Electronic Structure of Matter** - **Electronic Structure** refers to how electrons are arranged in atoms, ions, or molecules. - It determines chemical properties, reactivity, bonding behavior, and more. ### **II. Basic Atomic Structure** - **Subatomic Particles**: - **Protons**: Positive charge (+1), found in the nucleus. - **Neutrons**: No charge, found in the nucleus. - **Electrons**: Negative charge (-1), orbit the nucleus in energy levels. ### **III. Energy Levels and Sublevels** 1. **Energy Levels (Shells)** - Denoted by **principal quantum number (n)**. - Example: n = 1 (first shell), n = 2 (second shell), etc. 2. **Sublevels within Energy Levels**\ Each energy level contains one or more sublevels (s, p, d, f). - **s-orbital**: 1 orbital, holds 2 electrons. - **p-orbital**: 3 orbitals, holds 6 electrons. - **d-orbital**: 5 orbitals, holds 10 electrons. - **f-orbital**: 7 orbitals, holds 14 electrons. ### **IV. Quantum Numbers and Their Meaning** 1. **Principal Quantum Number (n)**: - Describes the main energy level (1, 2, 3...). 2. **Azimuthal Quantum Number (l)**: - Describes the shape of the orbital (0 = s, 1 = p, 2 = d, 3 = f). 3. **Magnetic Quantum Number (mₗ)**: - Describes the orientation of an orbital (--l to +l). 4. **Spin Quantum Number (ms)**: - Describes the spin of the electron (+½ or -½). ### **V. Electron Configuration and Rules for Filling Orbitals** 1. **Electron Configuration** - Describes the arrangement of electrons in an atom\'s orbitals.\ Example: **Carbon (C)**: [1*s*^2 ^2*s*^2^ 2*p*^2^]{.math.inline} 2. **Principles Governing Electron Configuration** - **Aufbau Principle**: Fill lower-energy orbitals first (e.g., 1s before 2s). - **Pauli Exclusion Principle**: No two electrons can have the same set of quantum numbers. - **Hund's Rule**: Electrons fill orbitals of equal energy one by one before pairing up. **The Noble Gas Configuration** is the shorthand way of writing the electron configuration. **Energy Level Order:** 1s → 2s → 2p → 3s → 3p → 4s → 3d → 4p → 5s → 4d → 5p → 6s → 4f → 5d → 6p → 7s ### **VI. Periodic Trends Related to Electronic Structure** 1. **Atomic Radius** - Increases down a group and decreases across a period. 2. **Ionization Energy** - Energy required to remove an electron. - Increases across a period and decreases down a group. 3. **Electronegativity** - Tendency of an atom to attract electrons. - Increases across a period and decreases down a group. 4. **Electron Affinity** - Energy change when an atom gains an electron. **[Chemical Bonding ]** ### **I. Overview of Chemical Bonding** Chemical bonding refers to the interaction that holds atoms or ions together to form compounds and molecules. The goal of bonding is to achieve a more stable configuration, often fulfilling the **octet rule** (8 valence electrons). ### **II. Types of Chemical Bonds** 1. **Ionic Bond** - **Definition**: A bond formed through the **transfer of electrons** from a metal to a non-metal. - **Examples**: NaCl (Sodium Chloride), MgO (Magnesium Oxide). - **Properties**: - High melting and boiling points. - Soluble in water. - Conduct electricity when dissolved or molten. 2. **Covalent Bond** - **Definition**: A bond formed by **sharing electron pairs** between two non-metals. - **Examples**: H₂O (Water), CO₂ (Carbon Dioxide). - **Types of Covalent Bonds**: - **Non-polar covalent**: Equal sharing of electrons (e.g., O₂). - **Polar covalent**: Unequal sharing of electrons (e.g., H₂O). - **Properties**: - Low melting and boiling points. - Poor electrical conductors. - Can be polar or non-polar. 3. **Metallic Bond** - **Definition**: A bond where metal atoms share a \"sea of delocalized electrons\" that move freely between atoms. - **Examples**: Fe (Iron), Cu (Copper). - **Properties**: - Good conductors of heat and electricity. - Malleable and ductile. - High melting points. 4. **Hydrogen Bond** (Special type of attraction) - **Definition**: A weak attraction between a hydrogen atom (bonded to F, O, or N) and another electronegative atom. - **Examples**: H₂O (between water molecules), NH₃ (Ammonia). - **Importance**: Affects the properties of water and DNA stability. ### ### **III. Key Concepts in Chemical Bonding** 1. **Octet Rule** - Atoms tend to gain, lose, or share electrons to have **8 electrons in their outer shell** (except for hydrogen and helium). 2. **Electronegativity** - **Electronegativity Difference** determines bond type: - 0--0.4 → Non-polar covalent - 0.5--1.7 → Polar covalent - 1.7 → Ionic 3. **Lewis Structures** - Diagrams showing the arrangement of electrons in a molecule. - **Lone pairs**: Non-bonding electrons. - **Bond pairs**: Electrons shared between atoms. ### **Summary of Key Points** - **Quantum numbers** define the position and behavior of electrons. - **Electron configurations** explain how electrons are arranged in atoms. - **Periodic trends** like atomic radius and ionization energy are influenced by electronic structure. - **Bonding behavior** (ionic, covalent, metallic) is determined by the arrangement of valence electrons. - **Ionic bonds** involve electron transfer between metals and non-metals. - **Covalent bonds** involve electron sharing between non-metals, which can be polar or non-polar. - **Metallic bonds** feature delocalized electrons among metal atoms, allowing conductivity. - **Hydrogen bonding** is a weak interaction that plays a crucial role in biological systems. Goodluck. ;D

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