2021 Live Review 3 | AP Chemistry | Experiment-Based Free-Response: Calorimetry & Beer’s Law

Dr. Leggett warmly welcomes viewers to the AP Chemistry session, emphasizing the importance of chemistry in life. The summary includes an overview of the day's focus on experimental data, the impact of experimental errors, and specific topics like Beer's Law, absorbent spectra, and calorimetry. Tips for tackling free-response questions are provided, such as scanning all questions, starting with the easiest, and labeling answers clearly. The importance of providing complete thoughts rather than complete sentences is highlighted, and the common mistake of identifying valence electrons is discussed.

The paragraph covers the analysis of two graphs related to an alloy of copper and zinc, using absorbent spectroscopy. It discusses the importance of using maximum absorbance for conducting experiments and the concept of mass percent in alloys. The incorrect student claim about conducting the experiment at 750 nanometers is refuted using data from the graphs. Additional questions on the frequency and energy of light with a given wavelength are also explored, with an emphasis on using the correct formulas and units.

This section details the process of preparing a 1.2 molar ammonia solution for an experiment, starting with the calculation of required amounts and the use of lab equipment. It touches on safety practices, such as wearing protective gear and handling chemicals carefully. The process of creating a Beer's Law graph from given data points and determining molarity from the graph is also explained. Finally, the calculation of moles of copper ions in a solution and the percent by mass of copper in an alloy is discussed, with attention to potential experimental errors.

The focus is on the potential impact of experimental errors, such as not wiping off the cuvette before measuring absorbance or not rinsing the cuvette with the solution being measured. The effects of these mistakes on the results are analyzed, and it is concluded that not rinsing the cuvette could indeed cause the results to be lower than expected. The importance of precision and cleanliness in lab procedures is emphasized.

This part explores the dissolution of urea, including identifying the hybridization of carbon in urea, drawing possible hydrogen bonds, and calculating molarity from given mass and volume. The temperature dependence of solubility is discussed, and Le Chatelier's principle is used to determine whether the dissolving process is endothermic or exothermic. The calculation of heat of solution and molar enthalpy is also covered, with an emphasis on listing required measurements and understanding calorimetry.

The concept of entropy in the context of urea's dissolution is explained, with a calculation of absolute molar entropy using given entropy change. Particle-level reasoning is applied to explain why the entropy change is positive. The thermodynamic favorability of the dissolution process at 25 degrees Celsius is discussed, highlighting the role of entropy in driving the process. The effect of a thermometer reading too high on the calculated enthalpy of dissolution is also considered.

The paragraph involves analyzing a temperature vs. time graph to determine the change in temperature and the nature of the dissolution process (endothermic or exothermic). It includes calculating the heat of dissolution using the heat capacity of the solution and the mass of the solution. The molar enthalpy of solution is then calculated, and the molar entropy of the solution is determined using the Gibbs free energy equation. A potential experimental mistake of using cold urea from the refrigerator is discussed, and its impact on the results is analyzed.

Dr. Leggett concludes with several test-taking tips, such as answering the prompt, showing all work for calculations, and using the 'Claim, Evidence, Reasoning, Strategy' approach. The importance of naming substances explicitly, avoiding certain misconceptions about hydrogen bonding, and providing complete thoughts is stressed. The summary also advises against using the term 'disorder' when referring to entropy, and to be familiar with the formula chart. The session ends with encouragement and an invitation to use feedback forms and additional resources, emphasizing the importance of practice.