Lecture Description
A balanced molecular equation is an equation showing the neutral forms of compounds. All that happens is that soluble ionic compounds separate and become ions in the chemical equation. This represents the total or full ionic equation.
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Course Index
- Understanding Matter
- Classifications of Matter
- Volume, compressibility and viscosity of phases of matter
- Homogeneous vs Heterogeneous Mixtures
- Physical vs Chemical Changes
- Understanding Scientific Notation
- Precision vs Accuracy
- Understanding Standard Deviation
- Understanding Metric Prefixes
- Using the Metric Prefix Chart
- Determining significant figures
- Understanding calculations with Significant Figures
- Understanding Temperature and Heat
- Kelvins, Celsius and Fahrenheit
- Understanding Unit Conversions
- Examining Dimensional Analysis
- Understanding Density
- Classification of Elements in the Periodic Table
- The Groups of the Periodic Table
- Phases of the Elements in the Periodic Table
- The Reason for Negative and Positive Ions
- Cations as Type I Metals vs Type II Metals
- Nonmetals and anion formation
- Understanding and Recognizing Element Symbols
- Discussing the Monoatomic Elements
- Discussing the Diatomic and Polyatomic Elements
- Understanding Atomic Mass & Isotopes
- Calculating the average mass of an element
- Avogadro’s Number, Moles, Molecules & Atoms
- Atoms to Moles to Grams
- Molecules to Moles to Grams
- Discussing Atomic Structure
- Discussing Atomic Number & Atomic Mass
- The Conservation of Matter
- Law of Definite Proportions
- Law of Multiple Proportions
- Explanation for Bond Formation
- Understanding an Ionic Bond
- Understanding a Covalent Bond
- Understanding a Metallic Bond
- Understanding the Ionic Bonding Model
- Understanding the Polyatomic Ions
- The 4 Characteristics of Polyatomic Ions with Halogens
- Naming System for Polyatomic Ions with Halogens
- Understanding how Ionic Compounds are formed
- Rules for Naming a Binary Ionic Compound
- Understanding the Base Name of the nonmetal
- Rules for naming Ionic Compounds with polyatomics
- Rules for Naming Ionic Hydrates
- Rules for Naming Molecular Compounds
- Rules for Naming Binary Acids
- Rules for Naming Oxyacids
- Empirical Formula vs Molecular Formula
- Understanding Combustion Analysis
- Understanding the difference between Atomic Mass & Molecular Mass
- Understanding Mass Percent
- Balancing Chemical Reactions
- Understanding the Types of Functional Groups
- Defining Stoichiometry
- The Stoichiometric Chart
- Understanding the limiting reactant or reagent
- Understanding Percent Yield
- Definition of Molarity
- The Difference Between a Solute and Solvent
- Molarity and Stoichiometry
- Stoichiometric Chart and Molarity
- The Rules for the Solubility of a compound
- The meaning of the terms soluble and aqueous
- The meaning of the terms insoluble and precipitate
- The Classification of Electrolytes
- The Strong Electrolytes
- The Weak Electrolytes
- The Non Electrolytes
- Writing Chemical Reactions
- Balanced Molecular Equation
- Total Ionic Equation
- Net Ionic Equation
- Understanding Oxidation versus Reduction
- Rules for Oxidation Numbers
- Determining Oxidation Numbers
- Pressure vs Force
- The different units for Pressure
- Understanding Dalton's Law
- Understanding mole fraction and partial pressure
- Boyle's Law
- Charles Law
- Avogadro's Law
- Understanding PV = nRT, the Ideal Gas Law
- Gay Lussac's Law
- Ideal Gas Stoichiometry
- Understanding Standard State Conditions
- Standard Molar Volume
- Combined Gas Law
- Using the Ideal Gas Law to find density or molar mass
- Understanding kinetic energy & Root Mean Square Speed
- Understanding Graham's Law of Effusion
- Understanding the Kinetic Molecular Theory
- The Characteristics of an Ideal Gas
- Thermodynamics vs Thermochemistry
- System vs Surroundings
- Understanding the internal energy of the system
- Heat vs. Work
- Calculating work
- Calculating heat and the internal energy of the system
- Calculating the internal energy of the system in a vacuum
- Heat capacity vs Specific Heat Capacity
- Bomb Calorimeter
- Coffee Cup Calorimeter
- Calculating the Heat of the Solution
- Calculating the enthalpy of the reaction
- Understanding Thermochemical Equations
- Understanding Hess's Law
- Using Hess's Law
- Understanding a Formation Equation
- Understanding Heats of Formation
- The Electromagnetic Spectrum
- Wavelength & Frequency
- The relationship between Wavelength & Frequency
- Converting between Wavelength & Frequency
- Understanding Refraction
- Understanding Diffraction
- Understanding the difference between Constructive and Destructive Interference
- Understanding Planck's constant
- Understanding the Photoelectric Effect
- Illustrating what happens when a photon strikes the surface of a metal
- The De Broglie Wavelength Equation
- Understanding the Atom
- Absorption vs Emission
- Understanding Absorption & Emission
- Different Emission Series
- The Quantum Mechanical Picture of the Atom
- The Quantum Sublevels
- The Principal Quantum Number (n)
- Electron Capacity
- The Angular Momentum Quantum Number (l)
- The Magnetic Quantum Number (mL)
- Understanding Periodic Law
- The Auf Bau Principle
- The s,p, d, f sublevels and the Periodic Table
- The Electron Configuration of Fluorine
- Hund's Rule
- Understanding Paramagnetism & Diamagnetism
- Inner Core vs Valence Electrons
- The Spin Quantum Number
- The Pauli Exclusion Principle
- Revisiting the Quantum Mechanical Picture of the Atom
- Quantum Numbers and Atomic Orbital Shape
- Understanding Atomic Radius
- Understanding Ionization Energy
- Exceptions to Ionization Energy in Groups 5A & 6A
- Electron Affinity
- Ionic Radius
- Exceptions to Ionization Energy in Groups 2A & 3A
- Understanding Exergonic & Endergonic Reactions
- Understanding Lattice Energy
- Understanding Dipole Arrows
- Dipole Arrows and Bond Classifications
- Understanding Electronegativity
- Understanding Lewis Dot Symbols
- Rules for Drawing Molecular Compounds
- Understanding Incomplete Octets
- Understanding the Expanded Octet
- Shortcut to Drawing Polyatomic Ions
- Why is formal charge important
- The Formal Charge Formula
- Understanding Electronic Geometry
- Understanding Molecular Geometry
- VSEPR Model for Bonding
- Ideal Bond Angles
- Lone Pairs & Bond Angles
- Understanding Molecular Polarity
- The First Rule for Molecular Polarity
- The Second Rule for Molecular Polarity
- Understanding Overlapping Atomic Orbitals
- Understanding Hybrid Orbitals
- Simplifying Hybridization
Course Description
In this video tutorial series, study the fundamentals of Chemistry while completing all the work on the provided worksheet. Clutch Prep offers textbook-specific videos to help you pass your toughest science classes.
Check out the list of Organic Chemistry textbooks they cover here: https://www.clutchprep.com/chemistry