So you want to CLEP out of your Chemistry classes in college…Brilliant!! Everybody hates chemistry anyway, right? So let’s get down to business and help you navigate the choppy waters of CLEP Chem (normally worth 6 credit hours). Maybe you’ll even learn to like it!
The study guide section is broken into the nine sections given on the CLEP chemistry website. Each of the sections comprises a certain percentage of the CLEP exam and this guide will loosely follow those percentages.
Many of these topics require you to solve a mathematical problem—this normally involves applying the appropriate equation to get the correct answer. This guide will help you to know which equations to use for certain topics—it would be a good idea to develop a list of these equations that you just have to know (memorize).
Some of you may continue with your chemistry education—topics that you will repeatedly see in future classes (particularly for Organic Chemistry) are written in bold. It is highly recommended that you take some extra time with these topics during your preparation.
Liquids, Solids and Gases.
Gases are simple—you need the Ideal Gas Law (know it!). Also, you should know the postulates of Kinetic Molecular Theory (boring as snot, but write them down). Also get the equation for KMT—all of this should be in Chapter 5.
Liquids and Solids—Normally around Chapters 10 or 11. You’ll need to understand why they form, so really focus on INTERMOLECULAR FORCES!! Look at phase diagrams (which separate liquids, solids and gas of a substance as a function of temp and pressure). Water is unusual, know these.
Solutions—lots of definitions (solute, solvent, solution) and lots of different ways to express concentration (molarity, molality, %, ppm, ppb). Know how to do these (get the equations).
Colligative properties—more equations here…get them and know how to use them. Note: the number of particles is important! NaCl? Makes Na+ and Cl–, so it makes TWO particles. Ionic substances break apart into multiple particles.
Know the three atomic particles of the atom and the four guys most responsible for developing atomic theory (proton, electron and neutron; Dalton, Rutherford, Thomson and Millikan; respectively).
Isotopes, mass number and atomic numbers…easy.
The structure of atoms gives us the following: electron energy levels, atomic spectra (hydrogen line spectra) quantum numbers and atomic orbitals (spheres, dumbbells and cloverleafs for s, p and d orbitals, respectively. Q#’s and AO’s are related—spend some time with these. EQUATIONS!! Relating frequency/wavelength to speed of light. The energy of a photon of energy (using Planck’s constant). Go get these equations…now.
Periodic trends—Use the graphic below as a guide (Table 1). NOTE—Atomic radius decreases from left to right (even though the atomic number increases). That’s a tricky one!
BONDS!! Chemical Bonds!
THE MOST IMPORTANT TOPIC in General Chemistry!! Molecular structure dictates molecular properties. In essence, this IS chemistry. Pay attention to this topic, learn it well.
Differentiate between ionic, covalent and polar covalent bonds
Ionic bonding as it relates to the size of an ion (cations get smaller, anions get larger)
For Covalent Molecules—Lewis structures (REALLY take time to learn these!) -# VE
-basic structure
-octets/duets
-exceptions
-resonance
-formal charge
VSEPR
Determine electron group geometry
Determine molecular geometry (at a central atom) for 3, 4, 5 and 6 electron groups
Distinguish between s and p bonds
Determine the hybridization at a central atom
-based on the number of electron groups
-spxdy notation for the above
These all come from a typical “Chapter 4” and the “Electrochemistry” chapter towards the end of a textbook.
Acid-Base Chemistry—simple definitions (THIS SUBJECT WILL FOLLOW YOU THROUGHOUT YOUR CHEMISTRY CAREER!!). Learn the difference between Strong/Weak (definition). Learn the strong acids (seven of them) and the strong bases (metal hydroxides like NaOH).
Precipitation and Redox reactions are pretty simple—Learn the “solubility rules” for predicting the formation of a solid (a precipitate). Also called ‘double displacement’ reactions.
Electrochem stuff—learn how to calculate an oxidation number (for water, it’s +1 for H and –2 for oxygen). Learn how to do these things for any atom in any molecule.
Now go to the Electrochem chapter and get the equations involving E0cell. There will be a bunch of them. The Nernst equation, the relationship to the equilibrium constant and to free energy (DG—we’ll get to that in a bit). Learn how to use these equations.
Holy moly, do you need to learn THIS!! But for stoichiometry, you need only one equation—grams to moles to moles to grams. Learn to manipulate this one thing and you’ll be WAY ahead of the game. Grams of A—moles A—moles B—grams B. Grams to moles (and moles to grams) uses the molecular mass of the different substances while moles—moles uses the balanced chemical equation.
Shamelessly manipulate the above to do simple stoichiometry, limiting reactant, theoretical yield and % yield problems.
More equation and math-intensive chapters here. Go to the end of each chapter and copy down the equations in the summary section. For Kinetics, learn anything with the term ‘rate’, rate law, rate constant, reaction order (all experimentally derived). Get the Arrhenius equation (the effect of temp on the reaction rate) so you can calc activation energies (always positive numbers).
Equilibrium requires you to memorize the K equation (products over reactants). Go get that general equation and commit it to memory. You’ll have to calculate the following types of equilibrium constants—Ka, Kb, Kc, K, Kw, Ksp. There are several later chapters that cover each of these…you’ll need them.
Other equilibrium equations? BUFFERS!! Another topic that will follow you up the chemistry food chain. Henderson-Hasselbach—go find that equation right now and learn how to use it.
Typically two chapters (normally 6 and 17)—one simple equation for all three variables (DH, DS and DG). Sum of the products – sum of the reactants. There’s also G = H – T(S). Learn this one too.
For H (enthalpy), learn what the signs mean! Exothermic (negative sign, heat is released), endothermic (positive, heat consumed…colder). For G, negative = spontaneous. For S, + means more disordered. This is a lot of information for a very small part of the exam.
Once you’ve made it this far, there are a few chapters in the back of most textbooks that begin to apply you’ve learned (that’s the descriptive chem).
For the Descriptive Chemistry Chapters (Organic, Coordination Chemistry, Biochemistry, Nuclear Chemistry, Main Group Chemistry)—go to the SUMMARIES at the end of each chapter and take some notes there. They’re actually quite interesting.
Nuclear Chemistry—learn the balancing of the nuclear reactions (alpha and beta particles).
For “Experimental Chemistry”, there’s nothing you can really “study” for specifically. You can find some traditional experiments online and the typical equipment used in these experiments to work through this part…but if you haven’t had the ‘lab’ part, perhaps focus more on the other subjects.
So, are you ready to test the waters? Take this practice quiz and judge your preparation level before diving into deeper study. All test questions are in a multiple-choice format, with one correct answer and four incorrect options. The following are samples of the types of questions that may appear on the exam.
Note: Please do keep in mind that we can’t guarantee the accuracy of this quiz, so we do recommend you also run through a full-length practice exam. The CollegeBoard offers a good one that we’ll share in the resources section below.
Correct Answer: C. 47
Explanation: The other answers are at least plausible as 108 represents the atomic mass of silver and 68 represents the difference between atomic number and atomic mass (the number of neutrons). There IS isotopic variation in most atoms, but that doesn't change the atomic number (number of protons).
