Become A Chemistry 1 Master - Basic Principles Of Chemistry - Udemy

What you'll learn:

• Know exactly what is Matter, Element and Compound.
• Learn the scientific methods and type of Mixtures.
• Know the Three State of Maters and Units of Measurements.
• Calculate Scientific Notation and Significant Figures.
• Determine if the results you obtained are Accurate and Precise.
• Understand the Units and Dimensional Analysis.
• Understand the Atomic Theory and Models of the Atom.
• know the Law of Conservation and law of Multiple Proportions.
• Learn Atomic Mass, Mass Number and Isotopes.
• Know how elements are organized in the Periodic Table.
• Learn how to name the Ionic Compounds.
• Know how to write Chemical equations.
• Learn how to make a Chemical Balance.
• Understand The Mole Concept.
• Be able to do Mole calculations successfully.
• Learn determination of Chemical formulas.
• Understand the Stiochiometry.
• To calculate the Limiting Reactant and the Yield of the reaction.
• Study all the Solubility Rules
• Understand the Electrolyte and Non-Electrolyte solutions
• Know all the Types of Chemical Reactions
• Be able to do Calculations on Molar Concentration and Dilution Analysis
• Understand the Gravimetric Analysis and the Titration
• Understand Boyle’s Law, Charles’s Law, Gay-Lussac’s Law, Avogadro’s Law, Combined Gas Law, The Ideal Gas Law, Real Gases, Gas Density and Gas Stoichiometry.
• You will understand Thermochemistry the study of heat change in chemical reactions.
• You will be able to distinguish between Exothermic & Endothermic reactions.
• You will learn Enthalpy and the First Law of Thermodynamics.
• You will be able to calculate Heat Capacity (C) for any element.
• Learn how to calculate standard enthalpy of reaction (ΔH0) for any chemical reaction.
• You will understand the Properties of Waves.
• You will know how Bohr’s Model of the Atom works.
• Understand Schrodinger Wave Equation.
• Be able to find the four quantum numbers in Schrodinger Equation.
• You will be bale to write the Electron configuration for any element.
• Understand the Ground State Electron Configurations and Classification of Elements.
• know the Electron Configurations of Cations and Anions.
• You will learn The Atomic Radius, The Ionization Energy, Effective nuclear charge (Zeff) and The Electron Affinity.
• You will be able to understand Groups Elements Properties.
• You will be able to understand the difference between ionic bond and covalent bond.
• You will understand electronegativity and formal charge.
• You will be able to write Lewis structure.
• You will understand the VSEPR theory.
• You will understand the Hybridization.

Who this course is for:

This course is for High School Students, Chemists, Pharmacy student, biology student, Nursing student and Engineering student,under graduated or graduated.

Everyone who has a big passion with chemistry and want to discover more about it.

Section 1 - Matter and Measurement

• An Introduction To Chemistry
• Methods Of Science
• Categories Of Science
• Steps Of Scientific Method
• Theory And Law
• The Scientific Method
• Law of Conservation of Mass
• Matter, Element And Compound
• Types Of Mixtures
• The Three States Of matter
• Properties And Changes Of matter
• Units Of Measurements
• Scientific Notations
• Significant Figures
• Accuracy And Precession
• Units and Dimensional Analysis

Section 2 - Atoms, Molecules, and Ions

• Dalton’s Atomic Theory
• Atomic Symbols and Models
• Law of Conservation of Mass
• Law of multiple proportions
• The Structure of The Atom
• Discovery of the Electron
• The nuclear model of the atom
• Atomic Mass, Mass Number and Isotopes
• Mass number and Atomic Masse
• Periodic Table of the Elements
• Metals, Nonmetals, and Metalloids
• Molecular Substances
• Ionic Substances
• Organic Compounds
• Ionic Compounds
• Rules for predicting Charges
• Naming of Ionic Compounds
• Formula of Ionic Compounds
• Naming of Binary Molecular Compounds
• Acids and Corresponding Anions
• Naming of Hydrates
• Writing Chemical Equations
• Balancing Chemical Equations

Section 3 - Calculations With Chemical Formulas And Equations

• Introduction to Calculations in Chemistry
• Mass and Moles of Substance
• Molecular Mass and Formula Mass
• The Mole Concept
• Mole Calculations
• Determining Chemical Formulas
• Elemental Analysis, Percentage of C, H and O
• Determining Formulas
• Molecular Formula from Empirical Formula
• Stoichiometry: Quantitative Relations in Chemical Reactions
• Limiting Reactant
• Theoretical Yield

Section 4 – Chemical Reactions

• Introduction to Chemical Reactions
• Ionic Theory of Solutions and Solubility Rules
• Electrolytes and Non-electrolytes
• Solubility Rules
• Molecular and Ionic Equations
• Acid Base, Neutralization and Oxidation-Reduction Reactions
• Oxidation number
• Types of Oxidation-Reduction Reactions
• Working with solutions
• Quantitative Analysis

Section 5 – Gaseous State

• Introduction to the Gaseous State
• Gas Pressure and Its Measurement
• Boyle’s Law: Relating Volume and Pressure
• Charles’s Law: Relating Volume and Temperature
• Gay-Lussac’s Law : Relating Pressure and Temperature
• Combined Gas Law : Relating Pressure, Temperature and Volume
• Avogadro’s Law: Relating Volume and Amount
• The Ideal Gas Law
• Standard Temperature and Pressure (STP)
• Gas Density; Molecular-Mass Determination
• Gas Stoichiometry
• Gas Mixtures; Law of Partial Pressures
• Real Gases

Section 6 – Thermochemistry

• Introduction to Thermochemistry
• Thermodynamics
• Thermodynamic Equations
• Heat Capacity (C)
• Standard Enthalpy of Formation ΔH formation

Section 7 – Quantum Theory and the Electronic Structure of Atoms

• Properties of Waves
• Bohr’s Model of the Atom
• Schrodinger Wave Equation
• Aufbau principle and Hund's Rule 
• Electron configuration

Section 8 – Periodic Relationships

• Ground State Electron Configurations and Classification of Elements
• Electron Configurations of Cations and Anions 
• Effective nuclear charge (Zeff)
• The Atomic Radius
• The Ionization Energy
• The Electron Affinity
• Groups Elements Properties

Section 9 – Ionic and Covalent Bonding

• The Ionic and Covalent Bonding
• Electronegativity and Polar Covalent Bond
• Writing Lewis Structures
• Formal Charge

Section 10 – Molecular Geometry and Chemical Bonding Theory

• Valence shell electron pair repulsion (VSEPR) model
• Dipole Moments and Polar Molecules
• Valence Bond Theory
• Hybridization

In addition to that, there are a lot of QUIZZES added to this course in order to enhance students understanding to the contents of this course and get the desired value !!!

For example in One Quiz you will practice on solving the following questions:

• Can an element be broken down into a simpler substance?
• What is a compound?
• What is a mixture?
• How many classifications of mixtures are there?
• Mixtures can be separated. Which of the following represents a way a mixture cannot be separated?
• Which of the following is a compound?
• Which of the following is an element?
• Are there more compounds or more elements?
• Which of the following is not a mixture?
• Can compounds be separated?

This Course contains the following Quizzes:

Elements, Compounds and Mixtures

Properties and Changes of Matter

Scientific Notation

Significant Figures

Periodic Table of The Elements

Naming an Ionic Compound from Its Formula

Balancing Chemical Equations

Mole Calculation for atoms, molecules, units and ions

Calculate the percentage composition

Limiting Reactant

Classification of Solutes in Aqueous Solution

Solubility Rules for Ionic Compounds

Types of Oxidation-Reduction Reactions

Oxidation Numbers

Boyle’s Law

Charles's law

Gay-Lussac's

Combined Gas Law

The Ideal Gas Law

Gas Stoichiometry

Exothermic and Endothermic 

Enthalpy 

Hess law

Properties of waves

Bohr’s Model

Electron Configurations

Electron Configurations of Cations and Anions

The Atomic Radius

Ionization energy

Covalent bonds, Ionic bonds and Polar covalent bonds

Formal Charge (FC)

Article from: https://www.udemy.com/course/general-chemistry-101-chapter-1-matter-measurment/