Chem 51
- Page ID
- 178109
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- 01: What Is Chemistry?
- What is chemistry? Simply put, chemistry is the study of the interactions of matter with other matter and with energy. This seems straightforward enough. However, the definition of chemistry includes a wide range of topics that must be understood to gain a mastery of the topic or even take additional courses in chemistry. In this book, we will lay the foundations of chemistry in a topic-by-topic fashion to provide you with the background you need to successfully understand chemistry.
- 02: Measurements
- Chemistry, like all sciences, is quantitative. It deals with quantities, things that have amounts and units. Dealing with quantities is very important in chemistry, as is relating quantities to each other. In this chapter, we will discuss how we deal with numbers and units, including how they are combined and manipulated.
- 04: Atoms, Molecules, and Ions
- The basic building block of all matter is the atom. Curiously, the idea of atoms was first proposed in the fifth century BCE, when the Greek philosophers Leucippus and Democritus proposed their existence in a surprisingly modern fashion. However, their ideas never took hold among their contemporaries, and it wasn't until the early 1800s that evidence amassed to make scientists reconsider the idea. Today, the concept of the atom is central to the study of matter.
- 4.01 The Elements and Symbols
- 4.02: Early Ideas in Atomic Theory
- 4.03: Chemical Formulas: How to Represent Compounds
- 4.04 Atomic Theory
- 4.05: Elements: Defined by Their Number of Protons
- 4.06: Isotopes - When the Number of Neutrons Varies
- 4.07: Looking for Patterns: The Periodic Table
- 4.08 Ions
- 4.09 Ionic Compounds
- 6: Chemical Reactions and Equations
- Chemistry is largely about chemical changes. Indeed, if there were no chemical changes, chemistry as such would not exist! Chemical changes are a fundamental part of chemistry. Because chemical changes are so central, it may be no surprise that chemistry has developed some special ways of presenting them.
- 8: Stoichiometry and the Mole
- We have already established that quantities are important in science, especially in chemistry. It is important to make accurate measurements of a variety of quantities when performing experiments. However, it is also important to be able to relate one measured quantity to another, unmeasured quantity. In this chapter, we will consider how we manipulate quantities to relate them to each other.
- 11: Electronic Structure
- Atoms act the way they do because of their structure. We already know that atoms are composed of protons, neutrons, and electrons. Protons and neutrons are located in the nucleus, and electrons orbit around the nucleus. But we need to know the structural details to understand why atoms react the way they do. Virtually everything we know about atoms ultimately comes from light. Before we can understand the composition of atoms (especially electrons), we need to understand the properties of light.
- 12: Chemical Bonds
- How do atoms make compounds? Typically they join together in such a way that they lose their identities as elements and adopt a new identity as a compound. These joins are called chemical bonds. But how do atoms join together? Ultimately, it all comes down to electrons. Before we discuss how electrons interact, we need to introduce a tool to simply illustrate electrons in an atom.
- 13: Gases
- Gases have no definite shape or volume; they tend to fill whatever container they are in. They can compress and expand, sometimes to a great extent. Gases have extremely low densities, one-thousandth or less the density of a liquid or solid. Combinations of gases tend to mix together spontaneously; that is, they form solutions. Air, for example, is a solution of mostly nitrogen and oxygen. Any understanding of the properties of gases must be able to explain these characteristics.
- 13.01: Gas Pressure
- 13.02: Gas Laws - Boyles Law - Pressure and Volume
- 13.03: Gas Laws - Charles Law - Volume and Temperature
- 13.04: Gas Laws - Gay-Lussac's Law - Pressure and Temperature
- 13.05: Gas Laws - Avogadro's Law - Volume and Moles
- 13.06: Gas Laws - Combined Gas Law - Pressure, Volume and Temperature
- 13.07: The Ideal Gas Law and Some Applications
- 13.08: Gas Mixtures - Dalton's Law of Partial Pressures
- 13.09: Kinetic Theory of Gases
- 13.10: Gas Stoichometry
- 14: Solids and Liquids
- In Chapter 6, we discussed the properties of gases. Here, we consider some properties of liquids and solids.
- 15: Solutions
- A solution is a homogeneous mixture—a mixture of two or more substances that are so intimately mixed that the mixture behaves in many ways like a single substance. Many chemical reactions occur when the reactants are dissolved in solution. In this chapter, we will introduce concepts that are applicable to solutions and the chemical reactions that occur in them.
- 16: Acids and Bases
- Acids and bases are important classes of chemical compounds. They are part of the foods and beverages we ingest, they are present in medicines and other consumer products, and they are prevalent in the world around us. In this chapter, we will focus on acids and bases and their chemistry.
- 17: Chemical Equilibrium
- So far in this text, when we present a chemical reaction, we have implicitly assumed that the reaction goes to completion. Indeed, our stoichiometric calculations were based on this; when we asked how much of a product is produced when so much of a reactant reacts, we are assuming that all of a reactant reacts. However, this is usually not the case; many reactions do not go to completion, and many chemists have to deal with that. In this chapter, we will study this phenomenon and see ways in whi
- 18: Oxidation and Reduction
- One important type of chemical reaction is the oxidation-reduction reaction, also known as the redox reaction.
- 18.01: Oxidation-Reduction Reactions
- 18.02: Balancing Redox Reactions By Inspection
- 18.03: Balancing Oxidation-Reduction Reactions Using the Half Reaction Method
- 18.04: Balancing Redox Reactions in Solution
- 18.05: Electrochemical Reaction
- 18.06: Batteries
- 18.07: Corrosion
- 18.08: Voltaic Cells
- 18.09: Electrolysis
- 19: Nuclear Chemistry
- In nuclear chemistry, the composition of the nucleus and the changes that occur there are very important. Applications of nuclear chemistry may be more widespread than you realize. Many people are aware of nuclear power plants and nuclear bombs, but nuclear chemistry also has applications ranging from smoke detectors to medicine. In this chapter, we will examine some of the basic concepts of nuclear chemistry and some of the nuclear reactions that are important in our everyday lives.
- Back Matter
- Index
- 20.01 Organic Chemistry Overview
- 20.02: Alkanes
- 20.03: Structural Formulas and Isomerism
- 20.04: Naming Alkanes
- 20.05: Petroleum
- 20.06 Reactions of Alkanes
- 20.07 Alkenes and Alkynes
- 20.08 Reactions of Alkenes
- 20.09 Aromatic Hydrocarbons
- 20.10 Naming Aromatic Compounds
- 20.11 Functional Groups
- 20.12 Alcohols
- 20.13 Properties and Uses of Alcohols
- 20.14 Aldehydes and Ketones
- 20.15 Naming Aldehydes and Ketones
- 20.16 Carboxylic Acids and Esters
- 20.17 Polymers
- Glossary
- Detailed Licensing