AP Chemistry FRQ Room

Ace the free response questions on your AP Chemistry exam with practice FRQs graded by Kai. Choose your subject below.

Which subject are you taking?

Knowt can make mistakes. Consider checking important information.

Pick your exam

AP Chemistry Free Response Questions

The best way to get better at FRQs is practice. Browse through dozens of practice AP Chemistry FRQs to get ready for the big day.

  • View all (250)
  • Unit 1: Atomic Structure and Properties (24)
  • Unit 2: Molecular and Ionic Compound Structure and Properties (18)
  • Unit 3: Intermolecular Forces and Properties (21)
  • Unit 4: Chemical Reactions (26)
  • Unit 5: Kinetics (26)
  • Unit 6: Thermodynamics (35)
  • Unit 7: Equilibrium (53)
  • Unit 8: Acids and Bases (18)
  • Unit 9: Applications of Thermodynamics (29)
Unit 1: Atomic Structure and Properties

Analyzing Ion Concentrations in Environmental Samples

Environmental geochemistry: Analyze a sample of freshwater with a measured sodium ion concentration.

Medium

Atomic Radius Trends: Period vs. Group

Examine periodic trends in atomic radii and answer the following:

Easy

Comparative Analysis of Photoelectron Spectra for Different Elements

Two photoelectron spectra are obtained for Elements A and B. The spectrum for Element A shows narrow

Extreme

Comprehensive Analysis on Periodic Trends and Chemical Properties

Synthesize your understanding of periodic trends and design an experiment linking atomic size and io

Extreme

Determining Empirical and Molecular Formulas

A compound has been analyzed and its percent composition is determined to be 56.5% carbon, 7.11% hyd

Medium

Electron Configuration and Periodic Trends Analysis

A dataset comparing elements in the third period provides the following data: • Element A: Ionizatio

Hard

Empirical Formula from Combustion Analysis

A 1.00 g sample of an unknown hydrocarbon is combusted. The combustion produces 3.30 g of \(CO_2\) a

Hard

Empirical vs. Molecular Formulas of Organic Compounds

An organic compound is analyzed and determined to have the following percent composition: 80.0% C, 6

Medium

Gas Law Applications in Reaction Kinetics

Apply the ideal gas law to analyze gas-phase reactions and discuss deviations from ideal behavior.

Medium

Investigation of Reaction Mechanism and Rate Laws

A reaction following the overall stoichiometry $$A + B \rightarrow C$$ is observed to proceed via a

Extreme

Ionization Energy Determination Experiment with Overlooked Electron Screening

In an experiment to measure the ionization energy of a multi-electron atom using photoelectron spect

Hard

Isotopic Abundance Analysis for Carbon

An experiment was conducted to measure the isotopic composition of carbon. The data collected show t

Medium

Magnetic Properties and Electron Spin Experiment

A research laboratory is investigating the magnetic properties of various materials by measuring the

Extreme

Mass Spectrometry and Isotope Abundance Determination

Using mass spectrometry data, evaluate the isotope distribution of selenium.

Medium

Mass Spectrometry and Isotopic Ratios

This question explores the determination of atomic mass using mass spectrometry data and the concept

Hard

Molecule to Mole Conversion Using Avogadro's Number

A sample is found to contain $$3.01 \times 10^{23}$$ molecules of a substance. Answer the following:

Easy

Periodic Table Group Trends Investigation

A researcher investigates the trends in electronegativity and atomic radius down Group 17 (the halog

Medium

Photoelectron Spectroscopy and Electronic Structure

A photoelectron spectrum of element Y shows two distinct clusters of peaks: one around 1100 eV and a

Hard

Predicting Ionic Charges and Compound Formation

Using periodic trends, predict ionic charges and determine the formulas of compounds. Answer the fol

Medium

Predicting Reaction Outcomes Using Periodic Trends

In an experiment, several metals (designated as A, B, and C) were reacted with dilute acid, and the

Medium

Quantum Numbers and Electron Configuration

Consider an electron in a \(3p\) orbital. Answer the following: (a) List the four quantum numbers f

Easy

Reaction Equilibrium in Water Ionization

Water undergoes autoionization according to the equation: \(2*H_2O \rightleftharpoons H_3O^+ + OH^-\

Easy

Stoichiometry in a Chemical Reaction

A researcher studies the combustion reaction represented by: $$2*C + O_2 \rightarrow 2*CO$$. A 24.02

Medium

Transition Metals and Variable Oxidation States

A chemist investigates copper compounds, noting that copper can exist in more than one oxidation sta

Medium
Unit 2: Molecular and Ionic Compound Structure and Properties

Conductivity in Different Phases: Bonding Type Analysis

The electrical conductivity of substances in various phases depends on the type of bonding present.

Easy

Evaluating PF5: Expanded Octet and Molecular Geometry

Phosphorus pentafluoride (PF5) is a classic example of a molecule that involves an expanded octet. E

Extreme

Exploring Metallic Properties Through Alloy Testing

This question focuses on how alloy composition influences mechanical properties like ductility. You

Medium

FRQ1: Investigating Ionic Bond Strength and Melting Points

A research team measured the melting points of various ionic compounds to determine the relationship

Medium

Graphite Melting Point Experiment with Network Covalent Solids

A student attempts to determine the melting point of graphite by placing a graphite sample in a high

Medium

Hybridization and VSEPR in $$XeF_4$$

A research group examines $$XeF_4$$ to determine the hybridization of xenon and its molecular geomet

Medium

Infrared Spectroscopy Misapplication for Determining Molecular Geometry

A researcher uses infrared spectroscopy to deduce the molecular geometry of a complex organic molecu

Medium

Ionic Mobility and Hydration Effects Misjudgment

A student conducts an experiment to measure the mobility of chloride ions by dissolving lithium chlo

Medium

Ionic vs Molecular Conductivity in Different Phases

This question asks you to analyze how different types of bonding affect electrical conductivity in v

Easy

Kinetic Analysis in Gas-Phase Reactions with Collisional Theory Error

A researcher examines the kinetics of a gas-phase reaction involving a covalent molecule by measurin

Hard

Lewis Structures and Expanded Octets: Analyzing PCl5

Phosphorus pentachloride (PCl5) is a molecule in which the central phosphorus atom expands its octet

Medium

Metallic Bonding and 'Sea of Electrons' Explanation

Delve into the characteristics of metallic bonding using the 'sea of electrons' model to explain the

Medium

Metallic Bonding and Alloy Conductivity Analysis

This question examines the role of metallic bonding in determining the conductive properties and mec

Medium

Metallic Bonding and Alloy Formation

Investigate the unique characteristics of metallic bonding and alloy formation, focusing on how the

Medium

Network Covalent Bonding and Material Properties

Network covalent solids such as diamond and quartz have unique physical properties resulting from th

Medium

Phase Transitions and Conductivity of Ionic Compounds

A physical chemist is examining how the electrical conductivity of an ionic compound changes as it t

Hard

Resonance Stabilization in Benzene

Benzene is known for its exceptional stability, which is attributed to resonance and aromaticity. Ex

Extreme

Synthesis and Characterization of an Interstitial Alloy

A materials scientist synthesizes an interstitial alloy by diffusing carbon into molten iron to form

Hard
Unit 3: Intermolecular Forces and Properties

Analysis of Maxwell–Boltzmann Distributions

Maxwell–Boltzmann distributions depict the range of molecular speeds in a gas. Analyze a provided gr

Hard

Comparative Analysis of Boiling Points and Intermolecular Forces

Use the provided data to analyze the relationship between molecular structure, intermolecular force

Hard

Comparative Study of Intermolecular Forces in Organic Molecules

Using the provided experimental data, analyze the relationship among dipole moment, molar mass, and

Hard

Density and Molar Mass Calculation from Gas Density

A gas is measured to have a density of $$D = 1.25\ \text{g/L}$$ at 1.00 atm and 300 K. Answer the fo

Easy

Determination of Boiling Points in Mixtures with Azeotropic Behavior

A student designs an experiment to determine the boiling point of a liquid mixture by distillation.

Hard

Determining Molar Mass from Gas Density Measurements

Using the provided density data, explain how the molar mass of a gas can be calculated and what tren

Easy

Distillation and Phase Change Analysis

This question examines the relationship between intermolecular forces and phase changes, particularl

Easy

Effusion Rates and Molecular Mass Relationship

Using the experimental data on gas effusion, analyze how molar mass affects the rate of effusion.

Medium

Electronic Transitions and the Electromagnetic Spectrum

Investigate how electronic transitions in atoms lead to photon absorption and the resulting spectral

Easy

Energy Transitions and the Electromagnetic Spectrum

Evaluate the relationship between wavelength and the type of energy transition in atoms using the pr

Medium

Gas Effusion and Molar Mass Determination

Effusion, the escape of gas molecules through small openings, provides insight into molar mass diffe

Hard

Gas Pressure and Temperature Relationship

Consider a sealed container of gas in which the temperature is gradually increased. Based on kinetic

Easy

Ideal Gas Law and Stoichiometry

A 10.0 L container is said to hold a mixture of three gases at 1.00 atm and 298 K: 0.50 mol of hydro

Medium

Impact of Molecular Geometry on Boiling Points

Molecular geometry affects the boiling points of compounds by influencing the surface area and, cons

Easy

Intermolecular Attractions and Phase Transitions

Investigate how intermolecular attractions affect phase transitions and the properties of substances

Medium

Intermolecular Forces and Phase Change Observations

In a laboratory experiment, a liquid known to engage in moderate hydrogen bonding is heated until it

Medium

Intermolecular Forces Ranking in Various Substances

This challenge requires you to analyze and rank several molecules based on the strength of their int

Extreme

Investigating Ideal Gas Behavior and Deviations

A set of experiments was conducted to measure the pressure of an ideal gas at various temperatures.

Hard

Molecular Polarity Analysis

Examine how molecular geometry and differences in electronegativity contribute to overall molecular

Medium

Non-Ideal Gas Behavior Analysis

Compare experimental gas pressures with predictions from the ideal gas law and explain the factors c

Medium

Spectrophotometric Determination of Molecular Polarity

A student conducts an IR spectroscopy experiment to assess the polarity of various organic compounds

Hard
Unit 4: Chemical Reactions

Analysis of Titration Data: Determining the Unknown Concentration

In a titration experiment, 20.0 mL of an unknown monoprotic acid is titrated with 0.1 M NaOH. The eq

Hard

Chemical Equilibrium: Le Chatelier’s Principle

For the equilibrium reaction $$N_2 (g) + 3*H_2 (g) \rightleftharpoons 2*NH_3 (g)$$, analyze the syst

Medium

Combustion Analysis of a Hydrocarbon

Combustion analysis can be used to determine the empirical formula of an unknown hydrocarbon. Design

Extreme

Combustion Analysis of a Hydrocarbon

A 3.00 g sample of an unknown hydrocarbon is combusted in excess oxygen, producing 12.0 g of carbon

Medium

Combustion Analysis: Determining Empirical Formula of a Hydrocarbon

Design an experiment to perform combustion analysis of an unknown hydrocarbon. Your procedure should

Extreme

Combustion Reaction: Evaluation of Reaction Completeness

A student performed a combustion experiment with butane (C₄H₁₀). The following data were recorded fo

Medium

Complex Ion Formation with Silver Ion

When aqueous $$AgNO_3$$ is mixed with excess aqueous ammonia (NH$$3$$), a complex ion $$[Ag(NH_3)_2]

Hard

Designing an Experiment for Redox Reaction: Copper Reduction

The reduction of $$Cu^{2+}$$ to metallic copper is a classic redox reaction. Design an experiment to

Hard

Detailed Redox Reaction Analysis

A researcher investigates a redox process in which oxalate ions ($$C_2O_4^{2-}$$) are oxidized by pe

Medium

FRQ 11: Experimental Design of a Precipitation Reaction

A scientist claims that mixing aqueous solution A (containing $$A^+$$ ions) with solution B (contain

Medium

Gravimetric Analysis for Determining Unknown Alkali Hydroxide

A 4.33 g sample of an unknown alkali hydroxide is dissolved in water and reacted with $$Cu(NO_3)_2$$

Hard

Gravimetric Analysis of Alkali Hydroxide

A 4.33 g sample of an unknown alkali hydroxide is completely dissolved in water. An excess of copper

Medium

Gravimetric Analysis of Alkali Hydroxide Precipitation

A student dissolves a 4.33 g sample of an unknown alkali hydroxide in water. They add an excess of c

Medium

Gravimetric Analysis: Identification of a Metal Ion via Precipitation

An unknown solution containing a trivalent metal ion \(M^{3+}\) is treated with a base to precipitat

Medium

Hydrocarbon Combustion Analysis

A hydrocarbon with an unknown formula $$C_xH_y$$ is combusted in excess oxygen, producing $$CO_2$$ a

Hard

Inquiry into Reaction Types in the Laboratory

A researcher is investigating different classes of chemical reactions by setting up experiments to d

Easy

Percent Error Analysis in Experimental Chemistry

In an experiment, the theoretical yield of a product was calculated to be $$2.50$$ g, while the actu

Easy

Percent Error Analysis in Reaction Yield

In three separate reaction trials, the experimental yield and theoretical yield were recorded. Revie

Easy

Precipitation Reaction: Formation of Silver Chloride

Silver nitrate reacts with sodium chloride in aqueous solution to form silver chloride precipitate a

Medium

Reaction Mechanism Elucidation Using Half-Reaction Method

Elucidating reaction mechanisms in redox processes often involves analyzing half-reactions separatel

Extreme

Redox Reaction Analysis: Iron and Hydrochloric Acid

Consider the redox reaction: $$Fe(s) + 2~HCl(aq) \rightarrow FeCl_2(aq) + H_2(g)$$.

Easy

Redox Reaction Analysis: Iron Oxidation

Iron metal reacts with hydrochloric acid according to the reaction: $$Fe + 2*HCl \rightarrow FeCl_2

Easy

Redox Titration for Concentration Analysis

A redox titration is performed to determine the concentration of an unknown $$Fe^{2+}$$ solution usi

Extreme

Stoichiometry in Multi-step Reactions

A reactant A undergoes a two-step conversion to product C via an intermediate B. The reactions are:

Hard

Synthesis and Decomposition Reaction Analysis

A chemist performs a series of experiments where a synthesis reaction forms compound AB from reactan

Medium

Thermodynamic Analysis: Gibbs Free Energy of Ammonia Synthesis

For the reaction $$N_2(g) + 3 H_2(g) \rightarrow 2 NH_3(g)$$, the enthalpy change is given as $$\Del

Hard
Unit 5: Kinetics

Analyzing Rate Law from Concentration Doubling Experiments

A reaction follows the rate law $$\text{Rate} = k [X]^m [Y]^n$$. The following experimental data wer

Medium

Application of the Steady-State Approximation in Kinetic Analysis

Consider a reaction mechanism where an intermediate Z is formed in the first step and consumed in th

Hard

Arrhenius Equation and Temperature Effects

The rate constant $$k$$ of a reaction depends on temperature according to the Arrhenius equation: $$

Hard

Comparison of Reaction Mechanisms

Two different mechanisms have been proposed for the reaction $$A + 2*B \rightarrow C$$. One mechanis

Extreme

Complex Effects of Reactant Concentration on Reaction Mechanisms

A reaction is studied by varying the concentrations of reactants A and B. The following data were ob

Hard

Determination of Rate Law from Initial Concentrations

A series of experiments is performed for the reaction $$A + 2*B + C \to D$$. The following table lis

Medium

Determining Reaction Order Using Initial Rates Method for $$2\text{A} + \text{B} \rightarrow \text{C}$$

The following experimental data was collected for the reaction $$2\text{A} + \text{B} \rightarrow \t

Medium

Determining Second Order Rate Constant from Graphical Data

For a second order reaction, the integrated rate law is given by $$\frac{1}{[A]} = k*t + \frac{1}{[A

Medium

Development of a Pseudo-First Order Rate Law

Consider the reaction $$A + B \rightarrow C$$, where B is present in large excess. Under these condi

Hard

Differentiating Reaction Order Using Half-Life Measurements

A series of experiments measured the half-life of a reactant at different initial concentrations. Us

Easy

Distinguishing Types of Enzyme Inhibition

A biochemical reaction is studied under different conditions, yielding the following kinetic paramet

Hard

Effects of Reactant Concentration Changes on Reaction Rates

A series of experiments was performed on the reaction $$F + G \to H$$ where the concentration of rea

Easy

Elucidating a Multi-Step Reaction Mechanism

Consider the following mechanism: I. $$A + B \rightarrow C$$ (fast) II. $$C + A \rightarrow D$$ (s

Hard

Exploring Reaction Temperature Effects Using Arrhenius Plots

A series of experiments were conducted to measure the rate constant $$k$$ of a reaction at different

Medium

Graphical Analysis of a First-Order Reaction

A reaction follows first-order kinetics with respect to reactant A. A student monitored the concentr

Medium

Homogeneous Reaction Rate and Stirring: Evaluating Conceptual Assumptions

In an experiment designed to study the reaction rate of a homogeneous reaction, the researcher alter

Easy

Identification of the Rate-Determining Step

A multi-step reaction has been proposed with the following mechanism: Step 1 (fast): $$A + B \to I$

Extreme

Integrated Rate Law Order Determination

Researchers studying the decomposition of substance A obtained the following data: | Time (min) | [

Medium

Intermediate Detection in Reaction Mechanism: Measurement Error Analysis

An experiment was conducted to test a proposed two-step reaction mechanism for the conversion of $$A

Hard

Investigation of an Intermediate in a Multi-Step Reaction

A reaction proceeds through the following mechanism: Step I: $$A \rightarrow X$$ (fast) Step II: $

Hard

Kinetic Isotope Effect Analysis

A researcher investigates the kinetic isotope effect by comparing the reaction rates of two similar

Hard

Kinetic Isotope Effect Investigation

A reaction was performed using a reactant containing hydrogen (H) and then repeated with the deuteri

Medium

Photochemical Reaction Kinetics in a Light-Activated Reaction

Certain reactions are initiated by the absorption of light (photochemical reactions).

Medium

Pressure Effects on Gaseous Reaction Rates

A gas-phase reaction was studied at different pressures. The data below shows the observed reaction

Medium

Reaction Mechanism Analysis and Rate-Determining Step

A reaction proceeds by a multi-step mechanism as shown below: Step I: $$A + A \rightleftharpoons X$

Hard

Temperature Measurement Calibration in Arrhenius Plot Construction

An experiment aimed at determining the activation energy of a reaction measured rate constants at di

Medium
Unit 6: Thermodynamics

Activation Energy and Reaction Mechanisms: Catalyst Effects

In an experiment, a catalyst is introduced to a reaction, and the energy diagram provided shows a lo

Hard

Bond and Formation Enthalpy Combined Analysis

A hypothetical reaction involves the breaking and forming of chemical bonds and can also be analyzed

Extreme

Bond Energy Calculation for Reaction Enthalpy

Consider the reaction: $$H₂ (g) + Cl₂ (g) → 2 * HCl (g)$$ The bond energies are provided as follows:

Medium

Bond Energy Calculations in a Reaction

Consider the synthesis of ammonia given by the reaction: $$N_2(g) + 3 H_2(g) \rightarrow 2 NH_3(g)$$

Medium

Catalysis and Energy Diagrams Comparison

Evaluate the impact of a catalyst on the energy diagram of a chemical reaction using the provided di

Easy

Catalyst Impact on Activation Energy and Reaction Kinetics

A researcher studies a reaction both in the presence and absence of a catalyst. The reaction kinetic

Extreme

Catalyst Recycling and Energy Savings in Industrial Processes

An industrial chemical process employs a catalyst to reduce the energy consumption of a reaction. Th

Extreme

Catalysts and Reaction Kinetics Analysis

Experiments were conducted to analyze the effect of a catalyst on the rate of a chemical reaction. T

Easy

Chemical Reaction Calorimetry

In a bomb calorimeter experiment, 5.00 g of a substance is combusted, causing the temperature of a 1

Medium

Comparative Analysis of Enthalpy Changes in Different Reactions

The following table lists the enthalpy change (ΔH) for four different reactions: | Reaction | ΔH

Easy

Comparative Study of Enthalpies of Formation for Organic Compounds

Several organic compounds have been synthesized, and their standard enthalpies of formation (\(\Delt

Medium

Comparison of Heat Flow in Different Materials

A graph compares the temperature change over time for two different substances when the same amount

Hard

Designing a Multi-Step Experiment to Determine Reaction Enthalpy

Design a laboratory experiment to determine the enthalpy change $$\Delta H$$ for a reaction that occ

Extreme

Designing an Experiment to Measure Enthalpy Change of Fusion

A researcher aims to measure the enthalpy change of fusion for a solid substance, such as tin. The e

Medium

Effect of Surface Area on Reaction Rate in Heterogeneous Systems

Surface area of a solid reactant can significantly influence the rate of a heterogeneous reaction. D

Medium

Energy Transfer in Phase Changes: Melting and Vaporization

A researcher studied the energy transfer during phase changes by heating a sample until it melted an

Easy

Enthalpy of Formation Calculation

Given the following standard enthalpy of formation values: $$ΔH_{f}^{°}(CO_{2}(g)) = -393.5\ kJ/mol$

Medium

Enthalpy of Phase Change: Melting and Vaporization

An energy versus temperature diagram for a substance undergoing phase changes is provided. This diag

Medium

Enthalpy of Solution

When an ionic compound dissolves in water, the process involves breaking ionic bonds, disrupting wat

Medium

Error Analysis in Calorimetry

A student recorded temperature vs. time data in a calorimetry experiment, with each data point accom

Hard

Evaluating Experimental Errors in Calorimetry Measurements

In a series of calorimetry experiments, the measured temperature changes were recorded as follows:

Medium

Exploring the Relationship between Temperature, Kinetic Energy, and Heat

A study investigates the relationship between the average kinetic energy of gas molecules and temper

Medium

Hess's Law and Reaction Enthalpy of Formation

A researcher aims to determine the standard enthalpy of formation for methanol, given by the reactio

Hard

Hess's Law in Multi-Step Organic Synthesis

An organic compound is synthesized through the following steps: Step 1: A → B with $$ΔH_{1} = -60\ k

Medium

Infrared Thermography for Reaction Kinetics

A student employs an infrared thermography camera to monitor temperature changes during an exothermi

Extreme

Investigating Heat Transfer in Liquid Mixtures

A researcher performs an experiment by mixing 50.0 g of water at 80.0°C with 50.0 g of water at 20.0

Easy

Modeling Energy Changes Using Calorimetric Data

A calorimetry experiment provided the following data: | Parameter | Value | |-----

Medium

Phase Change Energy Exchanges in Water

A laboratory experiment requires calculating the energy required for phase changes in water. Conside

Medium

Phase Change Thermodynamics: Sublimation and Deposition

A substance undergoes sublimation, transitioning directly from a solid to a gas. An energy diagram i

Medium

Reaction Kinetics versus Thermodynamics in Chemical Reactions

A set of experiments was conducted at different temperatures to measure the reaction rate of a chemi

Hard

Temperature Effects on Reaction Kinetics and Equilibrium

This FRQ explores the impact of temperature on reaction kinetics and chemical equilibrium, integrati

Hard

Temperature Measurement and Heat Transfer in Calorimeter

During a calorimetry experiment, a student's data recording indicates the following temperature read

Medium

Thermodynamics of Reaction Pathways: Investigating Multiple Reaction Channels

A decomposition reaction can proceed via two competing pathways. A table lists the fraction of the r

Extreme

Using Hess's Law to Determine Enthalpy Change

A reaction between A and B to form C is difficult to measure directly. Instead, the reaction is carr

Easy

Vaporization and Condensation: Energy Considerations

A researcher examines the phase change of water as it vaporizes and then condenses. The enthalpy of

Medium
Unit 7: Equilibrium

Analyzing Kp and Kc in Gas-Phase Equilibria

A researcher studies the gaseous reaction: $$2*X(g) + Y(g) ⇌ 3*Z(g)$$. Considering the relationship

Hard

Assessing Equilibrium Position Using Reaction Quotient and Adjustments

Consider the equilibrium reaction $$\text{D} \leftrightharpoons 2*\text{E}$$. At a certain moment, t

Medium

Calculating Keq for the Haber Process

In the Haber Process, the production of ammonia is governed by the reaction $$\text{N}_2 + 3*\text{H

Medium

Combined Equilibrium Reactions and Keq Calculation

Consider the following two reversible reactions with their respective equilibrium constants: Reacti

Medium

Combining Equilibrium Constants

Consider the following equilibrium reactions: (1) $$A(g) \rightleftharpoons B(g)$$ with $$K_1 = 4$$

Easy

Common Ion Effect on the Solubility of Silver Chloride

Examine how the common ion effect impacts the solubility of silver chloride (AgCl).

Medium

Common Ion Effect: Predicting Precipitation in Mixed Solutions

Silver chloride, $$AgCl(s)$$, is sparingly soluble and dissociates as: $$AgCl(s) \rightleftharpoons

Medium

Conversion between Kc and Kp

For the gaseous reaction $$\rm N_{2}(g) + 3H_{2}(g) \rightleftharpoons 2NH_{3}(g)$$, address the fol

Medium

Designing a Kinetic Experiment Involving Equilibria

An investigator studies the reaction $$L + M \rightleftharpoons 2N$$ by monitoring the time required

Hard

Determining Acid Dissociation Constant (Ka)

For the weak acid HA, which dissociates in water according to $$HA + H_2O \leftrightarrow A^- + H_3O

Medium

Determining the Reaction Quotient in an Aqueous Equilibrium Reaction

For the equilibrium reaction: $$M(aq) + N(aq) \rightleftharpoons P(aq)$$, the system is not initiall

Easy

Effect of Catalysts on Equilibrium Dynamics

Investigations were conducted on the reaction D ⇌ E + F to compare the time required to reach equili

Easy

Effects of Reactant Concentration on Equilibrium Position

A series of experiments were conducted on the reaction X + Y ⇌ Z. The table provided summarizes how

Medium

Environmental Application: Equilibrium in Natural Waters

Atmospheric CO2 dissolves in ocean water, forming carbonic acid which further dissociates into bicar

Medium

Environmental Chemistry and Solubility Equilibria

Examine the solubility equilibrium of lead(II) chloride in groundwater, represented by $$PbCl_2(s) \

Medium

Equilibrium and pH Changes in Amphoteric Species

Certain metal ions in solution can exhibit amphoteric behavior, forming different complexes dependin

Medium

Equilibrium in Environmental Systems: Carbonic Acid Formation

The formation of carbonic acid in water is represented by the equilibrium: $$CO_2(g) + H_2O(l) \righ

Medium

Equilibrium Shifts Due to Dilution in Aqueous Systems

Consider the equilibrium reaction in aqueous solution: $$Fe^{3+}(aq) + SCN^{-}(aq) \rightleftharpoon

Hard

Esters Formation Equilibrium Error due to Reactant Excess

An experiment studies the esterification reaction between an alcohol and a carboxylic acid to form a

Hard

Examining the Role of Catalysts in Equilibrium

Catalysts are known to affect reaction rates without changing the equilibrium constant (Keq). Answer

Medium

Experiment on the Common Ion Effect on Solubility

Design an experiment to investigate how the common ion effect influences the solubility of AgCl.

Medium

Experimental Design: Determining Ksp of a Sparingly Soluble Salt

Design an experiment to determine the solubility product constant (Ksp) of a sparingly soluble salt

Hard

Gas-Liquid Equilibrium: Henry’s Law and Reaction Equilibrium

Consider the reaction: $$O_2(aq) + 2X(aq) \rightleftharpoons Y(aq)$$, where the solubility of O₂ in

Medium

Graph Analysis of Reaction Progress

A reversible reaction was monitored over time, and the concentrations of reactant R and product P we

Hard

Graphical Analysis of Equilibrium Data

In an experiment monitoring the reaction $$P(g) + Q(g) \rightleftharpoons R(g)$$, the concentration

Medium

Graphical Analysis of Equilibrium Shifts Under External Stress

A graph displays the concentration of species versus time for a reversible reaction that has been pe

Hard

Graphical Analysis of Reaction Dynamics

A series of experiments monitored the concentration of reactants and products over time for a revers

Medium

Graphical Analysis of Reaction Progress

A researcher records the value of the reaction quotient $$Q$$ over time for a gas-phase reaction and

Medium

Haber Process Equilibrium Analysis

The Haber process converts N₂ and H₂ into NH₃ in a reversible reaction. Analyze the provided graph f

Medium

Impact of Dilution on Aqueous Equilibrium: The FeSCN2+ System

The equilibrium reaction for the formation of the colored complex ion is given by: $$Fe^{3+}(aq) + S

Medium

Impact of Dilution on Reaction Equilibrium

Consider the equilibrium $$Fe^{3+} (aq) + SCN^- (aq) \rightleftharpoons FeSCN^{2+} (aq)$$. (a) Predi

Easy

Impact of Inert Gas Addition on Equilibrium at Constant Volume

A study on the gaseous equilibrium L ⇌ M was performed with the addition of an inert (noble) gas at

Easy

Industrial Optimization in the Synthesis of Ammonia

The Haber process, represented by $$N_2 + 3*H_2 \leftrightarrow 2*NH_3$$, is an exothermic reaction

Extreme

Manipulating Equilibrium Constants via Hess’s Law

Design an experiment in which you measure the equilibrium constants of two simpler reactions and the

Medium

Manipulations of Equilibrium Constants using Hess's Law

Examine how equilibrium constants transform when the reaction is manipulated. Answer the following p

Medium

Measuring Equilibrium Constant in a Gas Phase Reaction

Design an experiment to determine the equilibrium constant $$K_p$$ for the gaseous reaction: $$\math

Hard

Multifactorial Stress on Equilibrium

For the reaction: $$L(g) + M(g) \rightleftharpoons N(g)$$, a system at equilibrium is subjected simu

Extreme

Multiple Equilibria in Aqueous Systems

In an aqueous solution, two equilibria occur simultaneously: (1) $$C(aq) + D(aq) \rightleftharpoons

Extreme

Predicting Equilibrium Shifts in Aqueous Reactions

Consider the aqueous equilibrium: $$Fe^{3+}(aq) + SCN^{-}(aq) \rightleftharpoons FeSCN^{2+}(aq)$$

Easy

Predicting Gas-Phase Equilibrium Shifts Under Pressure Variations

A gas-phase reaction is given by: $$2*P(g) + Q(g) ⇌ 3*R(g)$$, where the total number of moles change

Hard

Pressure and Volume Effects in Gaseous Equilibria

Analyze the impact of changes in pressure and volume on the equilibrium position of a gaseous reacti

Medium

Pressure Effects on Gaseous Equilibria

The reversible reaction $$\text{PCl}_5 \leftrightharpoons \text{PCl}_3 + \text{Cl}_2$$ involves gase

Medium

Simultaneous Effects on Equilibrium

Consider the equilibrium reaction: $$2X(g) + Y(g) \rightleftharpoons 3Z(g)$$ A system at equilibrium

Hard

Solubility and Temperature Variation

Explore the effects of temperature on the solubility of salts and the corresponding solubility produ

Hard

Solubility and the Common Ion Effect

Investigate the dissolution of AgCl and the influence of the common ion effect. Answer the following

Medium

Solubility Product (Ksp) Calculation

For the sparingly soluble salt $$MX_2 (s) \rightleftharpoons M^{2+} (aq) + 2*X^{-} (aq)$$ with $$K_{

Medium

Solubility Product and Common Ion Effect: Error Analysis

A researcher studies the solubility of AgCl by preparing solutions in pure water and in water contai

Hard

Solubility Product and Molar Solubility of a Salt

Consider the dissolution of the salt $$\text{AB}_2 (s) \leftrightharpoons \text{A}^{2+} (aq) + 2*\te

Hard

Temperature and Solubility

The following table provides the solubility of a salt in water at different temperatures: | Tempera

Medium

Temperature Dependence of Water Ionization Constant, Kw

A researcher measured the ionization constant of water, $$K_w$$, at various temperatures. The table

Medium

Temperature Effects on Equilibrium

Investigate how temperature variations influence both the equilibrium position and the equilibrium c

Medium

Temperature Impact on Reaction Rates and Equilibrium

Evaluate how temperature influences both the reaction rates and the equilibrium position without alt

Easy

Water Ionization Equilibrium

For the ionization of water: $$H_2O(l) \rightleftharpoons H^+(aq) + OH^-(aq)$$, with $$K_w = 1.0 \ti

Easy
Unit 8: Acids and Bases

Acid-Base Titration Curve Analysis

A titration of acetic acid (a weak acid) with sodium hydroxide (a strong base) produces a titration

Hard

Analysis of pH versus pKa Graph in Buffer Systems

A graph plotting pH against $$\log\left(\frac{[A^-]}{[HA]}\right)$$ for a buffer system is provided.

Extreme

Analysis of Polyprotic Acid Titration

A titration experiment is conducted using phosphoric acid (H3PO4), a polyprotic acid, with a strong

Hard

Analysis of Polyprotic Acids

Phosphoric acid (H₃PO₄) is a polyprotic acid with dissociation constants $$K_{a1} = 7.1 \times 10^{-

Hard

Application of Henderson-Hasselbalch Equation in Buffer Design

The Henderson-Hasselbalch equation is a powerful tool in predicting the pH of buffer systems. Answer

Easy

Buffer System and Henderson–Hasselbalch Applications

A buffer solution is prepared by mixing acetic acid (HC2H3O2) and sodium acetate (NaC2H3O2). The pKa

Easy

Comparative Analysis of Strong vs. Weak Acid pH

Acids differ in their ability to donate protons due to their degree of ionization, affecting the pH

Hard

Determining pH in Acidic Solutions

This FRQ examines the relationship between hydrogen ion concentration and pH in solutions of strong

Easy

Impact of Common Ion on Equilibrium

A solution of a weak acid HA (0.20 M, $$K_a = 1.0 \times 10^{-5}$$) is prepared. When 0.10 M of its

Hard

Impact of Temperature on the Equilibrium Constant (Kw)

The ionization constant of water (Kw) varies with temperature, affecting pH calculations. Analyze th

Medium

Indicator pKa and Color Change in Titrations

This question explores how acid-base indicators function by linking their pKa to the pH at which a c

Easy

pH Calculation of Strong Base

A 0.010 M NaOH solution is prepared. First, calculate the pOH using the formula $$pOH = -\log([OH^-]

Easy

Polyprotic Acid Titration: Phosphoric Acid

Phosphoric acid ($$H_3PO_4$$) is a polyprotic acid that can donate three protons in a stepwise manne

Hard

Polyprotic Acid: Dilution Effects on Second Dissociation

Explore the effect of dilution on the second dissociation of sulfuric acid (H₂SO₄), which acts as a

Hard

Salt Hydrolysis: Sodium Acetate in Water

Investigate the hydrolysis of sodium acetate (a salt of a weak acid and a strong base) in water and

Medium

Solubility and pH: Equilibrium Manipulation

A lab experiment investigates how changing the pH of a solution affects the solubility of Mg(OH)₂. U

Medium

Temperature Effects on Water Ionization (Kw)

In an experiment, water samples are heated to different temperatures and the ionization constant of

Medium

Titration Curve Analysis for a Polyprotic Acid

Polyprotic acids, such as $$H_3PO_4$$, exhibit complex titration curves with multiple equivalence po

Hard
Unit 9: Applications of Thermodynamics

Battery Design and Electrode Selection

A battery designer is considering different electrode materials with the following standard reductio

Hard

Calculating Standard Cell Potential from Half-Reactions

Two half-reactions are provided with their standard reduction potentials. Half-reaction 1 is $$\ce{C

Medium

Calorimetry Misapplication in Thermodynamic Measurements

In an attempt to determine both the enthalpy (\(\Delta H^\circ\)) and entropy (\(\Delta S^\circ\)) c

Medium

Charge Transfer and Reaction Kinetics Misinterpretation in Electrolysis

A researcher designed an electrolysis experiment to produce hydrogen and oxygen by electrolyzing wat

Medium

Comparing Electrolytic and Galvanic Cells

Electrochemical cells can be classified as galvanic (voltaic) cells or electrolytic cells based on t

Easy

Determining Equilibrium Constant from Free Energy Data

The table below provides standard free energy changes (ΔG°) and the corresponding equilibrium consta

Hard

Electroplating Calculations

An electroplating experiment is conducted to deposit a thin metal layer onto an object using a const

Medium

Electroplating Quantification

In an electrolytic cell used for electroplating silver, the deposition process follows the half-reac

Medium

Entropy and Phase Changes Analysis

The following table lists various phase changes along with the expected sign of the entropy change:

Easy

Entropy Changes in Phase Transitions

The table below lists various phase transitions along with their respective entropy changes (ΔS). An

Easy

FRQ 2: Temperature Dependence of Gibbs Free Energy

Consider a reaction for which the standard enthalpy change is \(\Delta H^\circ = -100\,kJ/mol\) and

Medium

FRQ 7: Thermodynamic Analysis of Reaction Favorability

A set of reactions each has different enthalpy and entropy changes. Consider the following data for

Medium

FRQ 11: Relating Equilibrium Constants to Cell Potentials

A certain redox reaction in a galvanic cell involves an exchange of \(n = 3\) electrons and has a st

Hard

FRQ 16: Nernst Equation Under Concentration Variations in Electrolytic Cells

In an electrolytic cell, the reduction half-reaction for permanganate is given by: $$MnO_4^- + 8H^+

Hard

Gibbs Free Energy and Equilibrium Constant

A reaction has been studied under various temperatures, and the equilibrium constant data is provide

Medium

Gibbs Free Energy and Reaction Favorability

The table below summarizes data for four different reactions, including their standard enthalpy (ΔH

Medium

Impact of Phase Changes on Entropy and Gibbs Free Energy

A reaction involves the conversion of a solid reactant to a gaseous product. The provided thermodyna

Medium

Investigating the Effect of Pressure on Reaction Entropy

Design an experiment to measure the impact of pressure on the entropy change of a gas-phase reaction

Medium

Linking Equilibrium Constant and Gibbs Free Energy

A chemist uses equilibrium measurements to analyze a reaction at 298 K. The researcher intends to us

Easy

Redox Reaction Analysis in Acidic Media

In an electrochemical cell operating in an acidic medium, the following half-reactions are provided:

Hard

Redox Reaction Mechanisms and Energy Changes

In an organic synthesis experiment, a redox reaction proceeds through multiple steps involving elect

Hard

Standard Cell Potential Calculations

A galvanic cell is constructed with a lead electrode and a silver electrode. The half-reactions are:

Medium

Standard Free Energy and Equilibrium in Redox Reactions

A media report asserts that a redox reaction with an equilibrium constant greater than 1 will necess

Medium

Temperature Dependence of Equilibrium in Redox Reactions

Experimental data for a redox reaction is provided below.

Medium

Temperature Dependence of Gibbs Free Energy

An experiment is conducted to study the effect of temperature on the spontaneity of a reaction that

Medium

Temperature Dependence of Gibbs Free Energy

For a reaction described by the equation $$\Delta G° = \Delta H° - T\Delta S°$$, analyze how tempera

Hard

Understanding Charge Flow and Faraday’s Law in Electrolysis

In an electrolytic cell, charge flow is critical for the deposition of material on an electrode. A s

Easy

Unit Conversion in Gibbs Free Energy Calculations

A reaction has \(\Delta H° = -100 \text{ kJ/mol}\) and \(\Delta S° = -210 \text{ J/mol·K}\) at 298 K

Easy

Voltage and Redox Reaction Spontaneity

Using the relation $$\Delta G^\circ = -nF E^\circ$$, analyze the spontaneity of a redox reaction.

Easy

Trusted by millions

Everyone is relying on Knowt, and we never let them down.

3M +Student & teacher users
5M +Study notes created
10M + Flashcards sets created
Victoria Buendia-Serrano
Victoria Buendia-SerranoCollege freshman
Knowt’s quiz and spaced repetition features have been a lifesaver. I’m going to Columbia now and studying with Knowt helped me get there!
Val
ValCollege sophomore
Knowt has been a lifesaver! The learn features in flashcards let me find time and make studying a little more digestible.
Sam Loos
Sam Loos12th grade
I used Knowt to study for my APUSH midterm and it saved my butt! The import from Quizlet feature helped a ton too. Slayed that test with an A!! 😻😻😻

Need to review before working on AP Chemistry FRQs?

We have over 5 million resources across various exams, and subjects to refer to at any point.

Browse top AP materials

We’ve found the best flashcards & notes on Knowt.

Tips from Former AP Students

FAQWe thought you might have some questions...
Where can I find practice free response questions for the AP Chemistry exam?
The free response section of each AP exam varies slightly, so you’ll definitely want to practice that before stepping into that exam room. Here are some free places to find practice FRQs :
  • Of course, make sure to run through College Board's past FRQ questions!
  • Once you’re done with those go through all the questions in the AP ChemistryFree Response Room. You can answer the question and have it grade you against the rubric so you know exactly where to improve.
  • Reddit it also a great place to find AP free response questions that other students may have access to.
How do I practice for AP AP Chemistry Exam FRQs?
Once you’re done reviewing your study guides, find and bookmark all the free response questions you can find. The question above has some good places to look! while you’re going through them, simulate exam conditions by setting a timer that matches the time allowed on the actual exam. Time management is going to help you answer the FRQs on the real exam concisely when you’re in that time crunch.
What are some tips for AP Chemistry free response questions?
Before you start writing out your response, take a few minutes to outline the key points you want to make sure to touch on. This may seem like a waste of time, but it’s very helpful in making sure your response effectively addresses all the parts of the question. Once you do your practice free response questions, compare them to scoring guidelines and sample responses to identify areas for improvement. When you do the free response practice on the AP Chemistry Free Response Room, there’s an option to let it grade your response against the rubric and tell you exactly what you need to study more.
How do I answer AP Chemistry free-response questions?
Answering AP Chemistry free response questions the right way is all about practice! As you go through the AP AP Chemistry Free Response Room, treat it like a real exam and approach it this way so you stay calm during the actual exam. When you first see the question, take some time to process exactly what it’s asking. Make sure to also read through all the sub-parts in the question and re-read the main prompt, making sure to circle and underline any key information. This will help you allocate your time properly and also make sure you are hitting all the parts of the question. Before you answer each question, note down the key points you want to hit and evidence you want to use (where applicable). Once you have the skeleton of your response, writing it out will be quick, plus you won’t make any silly mistake in a rush and forget something important.