Chapter 1: the Science of Chemistry

1st Semester Review

Chemistry I

Chapter 1: The Science of Chemistry

1.1 What Chemistry is About

• Measurements & Units: Mass & weight; Volume; Density; Pressure
• Accuracy & precision
• Significant figures
• Scientific notation
• Dimensional analysis

1.2 Scientific Inquiry

• natural laws
• inquiry
• theory
• hypothesis
• experiment
• variable
• experimental variable
• control variables
• error
• average
• conclusion
• significant difference
• objective
• repeatable
• procedure
• scientific method

1.3 Matter and Energy

• matter def
• phases
• energy def
• Law of Conservation of Energy

Chapter 2: Matter and Atoms

2.1 Matter and the Elements

• substance vs. mixture
• element
• physical properties & physical change
• chemical properties & chemical change
• Periodic Table
• mole
• Avogadro's number
• calculations

2.2 Molecules and Compounds

• defs
• chemical formula
• molecular compound
• ionic compound
• formula mass

2.3 Mixtures and Solutions

• homogeneous vs. heterogeneous
• solution
• solute
• solvent
• dissolved
• concentration
• concentrated vs. dilute
• solubility
• molarity
• calculations
• percent by mass
• molarity
• mixtures of gases
• molar volume
• STP

Chapter 5: The Structure of the Atom

5.1 The Atom Has a Structure

• Historical development of atomic theory
• Democritus, Dalton, Thomson, Rutherford
• atom interior
• nucleus
• electron cloud
• properties of subatomic particles
• atomic number, atomic mass
• isotope
• average atomic mass
• ions

5.2 The Quantum Atom

• quantum theory
• quantum state
• 5 statements
• waves & particles
• frequency
• wavelength
• photon
• Planck's constant
• relationship btwn frequency & wavelength, energy & frequency; wavelength & energy
• electrons as waves
• allowed wavelengths
• orbitals
• energy levels
• Pauli exclusion principle
• Periodic Table & energy levels

5.3 Electron Configurations

• def
• writing electron configurations

5.4 Light and Spectroscopy

• spectrum
• spectrometer
• electromagnetic spectrum
• interactions between light and matter
• emission spectrum
• absorption spectrum

Ch 20: Radioactivity

20.1 Nuclear Equations

• atomic number (Z)
• mass number (A)
• neutron number (N)
• chemical reactions vs. nuclear reactions

20.2 Nuclear Reactions

• nuclear reactions-def
• radioactivity-def
• radiation
• alpha decay
• alpha radiation = alpha particle
• parent nuclide
• daughter nuclide
• beta decay
• beta radiation = beta particle
• gamma decay
• positron emission
• positron

Chapter 6: Elements and the Periodic Table

6.1 The Periodic Table

• periodic properties
• Mendeleev
• atomic level periodic properties
• atomic radius
• electronegativity
• ionization energy
• historical development
• orbitals & atomic radius

6.2 Properties of Groups of Elements

• alkali metals
• alkaline earth metals
• transition metals
• C, N & O
• halogens
• noble gases
• why compounds form: filled vs. partially filled energy levels

6.3 Valence

• valence electrons
• determining valence electrons
• main group elements
• Lewis dot diagram

Chapter 4: Physical and Chemical Change

4.1 Understanding Chemical Changes

• def
• irreversible
• interatomic forces vs intermolecular forces
• chemical bonds
• covalent bond – molecule
• ionic bonds
• enthalpy of formation
• reactivity

4.2 Chemical Reactions

• chemical reaction
• reactants & products
• balance equation
• coefficient
• endothermic vs. exothermic
• activation energy

4.3 Chemical Reactions in the Lab

• symbols for states of matter
• precipitate
• salt
• oxidation vs. reduction
• acid-base reaction
• pH scale

Chapter 7: Bonding

7.1 What is a Chemical Bond?

- polarization

• Forming Bonds: overlapping orbitals, attractive force, equilibrium distance, two bond types
• Bond Models & Diagrams
• Predicting Bond Type: electronegativity difference

- electronegativity

- ionization energy

• Covalent Bonds:

- covalent bond

- nonpolar covalent

-polar covalent

• Ionic & Metallic Bonds: ionic crystals

-ionic bond

-metallic bond

• Polar Molecules: polarity & physical properties

7.2 Valence Electrons & Bonding Patterns

• Bonding: unpaired valence electrons form bonds
• The Octet Rule

-octet rule

• Valence electrons & Ion Formation: ion patterns
• Electron Configuration of Ions – same as noble gases
• Simple Ionic Formulas – formulas must be neutral
• Covalent Bonds – number of covalent bonds possible = number of unpaired electrons

7.3 Molecular Geometry & Lewis Structures

• drawing Lewis dot diagrams

- isomer

• Double & Triple bonds
• Molecular Geometry

- VSEPR

- region of electron density

Review Problems - #s 21, 22, 26, 29, 30, 31, 33, 34

Chapter 8: Compounds & Molecules

8.1 Ionic Compounds

• Properties
• charges cancel
• Polyatomic ions
• Writing Formulas: total positive charge must balance total negative charge
• Formulas with Polyatomic ions: use parentheses
• Names:
• binary ionic compounds
• compounds with polyatomic ions
• compounds with transition metals

8.2 Covalent Compounds

• Properties

- molecule

• Small molecules
• Medium-sized molecules

- lipid

- steroid

- hydrocarbon

• Polymers

- polymer

- monomer

- homopolymer

- copolymer

• Network covalent
• Formulas

- empirical formula

- molecular formula

• Naming:
• binary covalent compounds, prefixes

8.3 Intermolecular Forces

- intermolecular forces

- van der Waals attractions

• Dipole-dipole attractions

- dipole-dipole attractions

- hydrogen bonding

-surface tension (p. 247 & 264)

• Water - special properties
• London dispersion attraction:
• factors that affect London dispersion attraction

- London dispersion attraction

8.4 Formula Masses

• calculation of molar mass
• Percent Composition: formula
• Calculating Empirical Formulas
• Calculating Molecular Formulas

Review Problems - #s 22, 24, 26, 27, 28, 30, 37, 38, 39, 42, 45, 46, 47, 48, 51

Ch 17: Organic Chemistry

17.1 Carbon Molecules

• saturated
• unsaturated
• alkane
• parent compound
• R group
• structural isomer
• alkene
• alkyne

17.2 Functional Groups

• alcohol
• ether
• aldehyde
• ketone
• carboxylic acid
• amine
• ester