Study Guide

Overview and Test Objectives
Field 018: Chemistry

Test Overview

Table outlining the test format, number of questions, time, and passing score.

Format	Computer-based test (CBT)
Number of Questions	100 multiple-choice questions
Time	2 hours 30 minutes*
Passing Score	220

*Does not include 15-minute CBT tutorial

Test Objectives

Table outlining test content and subject weighting by sub area and objective.

Subarea		Range of Objectives	Approximate Percentage of Questions on Test
I1	Reflecting On and Constructing Scientific Knowledge	001–005	25%
II2	Using Inorganic Chemistry	006–012	32%
III3	Using Physical Chemistry	013–018	27%
IV4	Using Organic Chemistry and Biochemistry	019–022	16%

Hover over each subarea for details of subtest content or see table above.

Sub area 1 25%, Sub area 2 32%, Sub area 3 27%, and Sub area 4 16%.

Subarea I1—REFLECTING ON AND CONSTRUCTING SCIENTIFIC KNOWLEDGE

Objective 001—Understand the principles and procedures of scientific inquiry.

Includes:

• formulating research questions and investigations in chemistry
• developing valid experimental designs for collecting and analyzing data and testing hypotheses
• recognizing the need for control groups in experiments
• understanding procedures for collecting and interpreting data to minimize bias
• recognizing independent and dependent variables and analyzing the role of each in experimental design
• identifying the most appropriate method (e.g., graph, table, formula) for presenting data for a given purpose
• applying mathematics to investigations in chemistry and the analysis of data
• interpreting results presented in different formats
• evaluating the validity of conclusions
• assessing the reliability of sources of information

Objective 002—Apply knowledge of methods and equipment used in scientific investigations.

Includes:

• selecting and using appropriate data collection and measurement devices and methods
• identifying uncertainties in measurement
• evaluating the accuracy and precision of a measurement in a given situation
• identifying procedures and sources of information related to the safe use, storage, and disposal of materials and equipment related to chemistry investigations
• identifying hazards associated with laboratory practices and materials
• applying procedures for preventing accidents and dealing with emergencies

Objective 003—Understand the nature of scientific thought, inquiry, and history.

Includes:

• demonstrating knowledge of the reliance of scientific investigations on empirical data, verifiable evidence, and logical reasoning
• recognizing the effect of researcher bias on scientific investigations and the interpretation of data
• demonstrating an awareness of the contributions made to chemistry by individuals of diverse backgrounds and different time periods
• recognizing the dynamic nature of scientific knowledge, including ways in which scientific knowledge is acquired and modified

Objective 004—Understand the relationship of chemistry to contemporary, historical, technological, and societal issues.

Includes:

• recognizing the relationships between science and technology
• analyzing historical, political, and social factors that affect developments in chemistry, including current issues related to chemistry research and technology (e.g., alternative fuels, polymers)
• evaluating the credibility of scientific claims made in various forums (e.g., mass media, professional journals, advertising)

Objective 005—Understand interrelationships among the physical, life, and earth/space sciences and their connections to mathematics and technology.

Includes:

• recognizing major unifying themes and concepts that are common to the various scientific disciplines (e.g., patterns, cause and effect, conservation of energy, entropy)
• describing the integration and interdependence of the sciences, mathematics, and technology and their applications in real-world contexts

 

Subarea II2—USING INORGANIC CHEMISTRY

Objective 006—Apply the rules of chemical nomenclature and notation.

Includes:

• applying basic rules of nomenclature to identify and name inorganic substances
• interpreting symbols and chemical notation for elements, isotopes, ions, molecules, and compounds

Objective 007—Understand atomic and molecular structure and bonding.

Includes:

• identifying the parts of an atom and their characteristics
• comparing historic models of the atom
• using the periodic table to predict the properties of a given element
• representing atoms, ions, and compounds with electron-dot diagrams
• analyzing the characteristics of different types of bonds (covalent, ionic, metallic), including the role of electrons in bonding
• predicting physical and chemical properties based on the bonding in a substance
• using VSEPR theory to explain molecular geometry and polarity
• identifying types of intermolecular forces and relating them to the physical properties of molecular substances

Objective 008—Apply the mole concept and the principles and methods of stoichiometry.

Includes:

• defining a mole and recognizing the significance of the mole concept
• calculating the number of moles in a given mass or volume of a substance
• solving problems involving molecular and formula masses and percent composition
• determining empirical and molecular formulas
• applying the law of conservation of mass to solve problems involving moles, mass, and volume and problems involving solution chemistry
• balancing chemical equations
• solving problems involving limiting reagents and percent yield
• recognizing net ionic equations

Objective 009—Apply knowledge of chemical equilibrium and reaction rates.

Includes:

• analyzing the effects of concentration, pressure, temperature, and catalysts on chemical equilibrium and applying Le Chatelier's principle to chemical systems
• solving problems involving equilibrium constants and reaction quotients
• solving problems involving solubility product constants of slightly soluble salts and the common-ion effect
• analyzing everyday phenomena in terms of chemical equilibrium
• describing how temperature, concentrations, and catalysts affect reaction rates
• analyzing potential energy versus reaction coordinate diagrams
• identifying first-order and second-order reactions from the rate law for a reaction
• determining the rate law of a reaction from experimental data
• recognizing the relationship between a reaction mechanism and the rate law

Objective 010—Understand the principles and applications of acid-base chemistry.

Includes:

• analyzing acids and bases according to acid-base theories (i.e., Arrhenius, Brønsted-Lowry, Lewis)
• distinguishing between strong and weak acids and bases and identifying conjugate acid-base pairs
• calculating the hydronium or hydroxide ion concentration and the pH or pOH of various acid and base solutions
• predicting the acid-base properties of various salts
• analyzing the composition and function of buffer solutions
• applying the principles of acid-base titration, including the selection of indicators, and interpreting the results of acid-base titrations
• identifying applications of acid-base chemistry

Objective 011—Understand the principles and applications of electrochemistry.

Includes:

• interpreting the behavior of common substances in terms of oxidation-reduction reactions
• determining oxidation numbers and balancing oxidation-reduction reactions (e.g., half-reaction method)
• analyzing the feasibility of given reactions based on electrode potentials at standard conditions and nonstandard conditions
• analyzing the components, operating principles, and potentials of electrochemical and electrolytic cells
• relating cell potentials to spontaneity and equilibrium constants
• demonstrating knowledge of methods and applications of electrochemical analysis
• identifying applications of electrochemistry

Objective 012—Understand qualitative analysis.

Includes:

• demonstrating knowledge of various separation techniques (e.g., distillation, filtration, chromatography) and their basic principles
• selecting an appropriate separation technique in a given situation
• demonstrating knowledge of the methods and equipment used for determining the types of substances present in a sample
• identifying everyday applications of qualitative analysis

 

Subarea III3—USING PHYSICAL CHEMISTRY

Objective 013—Understand chemical thermodynamics and thermochemistry.

Includes:

• differentiating among forms of energy (e.g., heat, chemical, nuclear)
• analyzing how the laws of thermodynamics apply to chemical systems
• predicting the spontaneity of given reactions based on enthalpy changes, entropy changes, and temperatures of the systems
• analyzing endothermic and exothermic reactions
• distinguishing between heat and temperature
• demonstrating knowledge of the principles of calorimetry
• analyzing the results of calorimetry experiments
• solving enthalpy problems using Hess's law, standard enthalpies of formation, and bond energies

Objective 014—Apply methods for measuring the physical properties of solids, liquids, and gases.

Includes:

• comparing physical properties (e.g., melting point, density, solubility) of solids, liquids, and gases
• demonstrating knowledge of methods and equipment used for measuring the physical properties of substances
• using the physical properties of a substance to identify it

Objective 015—Apply knowledge of the kinetic molecular theory to the states of matter, phase changes, and the gas laws.

Includes:

• identifying the basic tenets of the kinetic molecular theory
• using the kinetic theory to describe and explain characteristics of the states of matter, including changes of state
• explaining the dynamic equilibrium between phases
• analyzing heating and cooling curves
• analyzing vapor pressure curves and phase diagrams
• analyzing the relationships among pressure, temperature, and volume of a gas or mixture of gases
• distinguishing between ideal and real gas behavior
• setting up and solving problems involving gas law relationships

Objective 016—Understand characteristics and properties of solutions.

Includes:

• analyzing the colligative properties of solutions
• recognizing factors that affect solubility, including intermolecular forces
• interpreting solubility curves
• solving problems involving concentrations of solutions (e.g., molarity, molality, percent by mass percentage)
• analyzing the process of dissociation in solution
• identifying properties of strong and weak electrolyte solutions
• applying solubility rules of inorganic salts to predict the occurrence of precipitation reactions

Objective 017—Understand quantum mechanics.

Includes:

• identifying basic features of the quantum mechanical model of the atom
• recognizing the experimental evidence for the quantum mechanical model of the atom
• analyzing the relationships among electron energy levels, photons, and atomic spectra
• demonstrating a basic understanding of quantum numbers
• describing atomic orbitals
• predicting the electron configurations of neutral atoms and ions of given elements
• relating photon energy to the wavelength and frequency of light

Objective 018—Understand the basic principles and methods of spectroscopy.

Includes:

• demonstrating knowledge of the basic principles used in spectroscopy, limited to UV, visible, infrared, and mass spectroscopy
• recognizing the kind of information that can be determined using spectroscopic analysis
• identifying everyday applications of spectroscopy

 

Subarea IV4—USING ORGANIC CHEMISTRY AND BIOCHEMISTRY

Objective 019—Understand the structure and nomenclature of organic compounds.

Includes:

• classifying hydrocarbons (e.g., alkane, aromatic) based on the type of carbon-carbon bonds
• identifying the main families of organic compounds by means of their functional groups
• using IUPAC rules to name simple organic compounds
• identifying heterocyclic compounds
• recognizing isomers of organic compounds, including stereoisomers

Objective 020—Understand organic reactions of major functional groups.

Includes:

• demonstrating knowledge of the reactions of the major functional groups (addition, condensation, elimination, substitution)
• identifying the processes by which organic polymers are formed
• identifying everyday applications of organic reactions

Objective 021—Understand the structure and function of biomolecules.

Includes:

• recognizing and distinguishing the structures of the major classes of biomolecules (proteins, lipids, carbohydrates, nucleic acids)
• identifying the primary functions of the various types of biomolecules and relating these functions to molecular structure
• recognizing the role of enzymes in biological systems
• recognizing factors that affect enzyme kinetics
• recognizing the importance and role of buffers in biological systems

Objective 022—Understand biochemical reactions and processes.

Includes:

• using chemical principles (including thermodynamics) to analyze important biochemical processes (e.g., synthesis, degradation, electron transport, oxidative phosphorylation)
• identifying the overall chemical equations for the metabolic reactions of photosynthesis and respiration

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