Survey course introducing chemistry. Topics may include inorganic, organic, biochemistry, food/physiological chemistry, and environmental/consumer chemistry. Designed for allied health students and for students who are not science majors.

Upon completion, students will be able to:

• Understand the basic concepts of matter and energy including properties and changes.

• Demonstrate knowledge of units and use measurements in problem solving.

• Use the periodic table to explain atomic structure.

• Demonstrate knowledge of covalent and ionic compounds and their nomenclature.

• Demonstrate knowledge of chemical bonding and molecular structure.

• Understand, write, and balance chemical equations.

• Use the mole concept to determine the number of atoms, moles, grams, and solve elementary stoichiometry-based calculations.

• Demonstrate knowledge of gas laws to predict the behavior of gases.

• Understand the principles of solutions and solve associated problems.

• Understand and apply the principles of acids and bases.

• Understand and apply the fundamental concepts of organic chemistry.

• Relate the concepts covered to everyday life including human physiological processes.

Grade Basis: L
Credit Hours: 4
Lecture hours: 48.0
Lab hours: 48.0

Fundamental principles of chemistry for majors in the sciences, health sciences, and engineering; topics include measurements, fundamental properties of matter, states of matter, chemical reactions, chemical stoichiometry, periodicity of elemental properties, atomic structure, chemical bonding, molecular structure, solutions, properties of gases, and an introduction to thermodynamics and descriptive chemistry.

Basic laboratory experiments supporting theoretical principles presented in lecture; introduction of the scientific method, experimental design, data collection and analysis, and preparation of laboratory reports.

Upon completion, students will be able to:

• Define the fundamental properties of matter.

• Classify matter, compounds, and chemical reactions

• Determine the basic nuclear and electronic structure of atoms.

• Identify trends in chemical and physical properties of the elements using the Periodic Table.

• Describe the bonding in and the shape of simple molecules and ions.

• Solve stoichiometric problems.

• Write chemical formulas.

• Write and balance equations.

• Use the rules of nomenclature to name chemical compounds.

• Define the types and characteristics of chemical reactions.

• Use the gas laws and basics of the Kinetic Molecular Theory to solve gas problems.

• Determine the role of energy in physical changes and chemical reactions.

• Convert units of measure and demonstrate dimensional analysis skills.

• Use basic apparatus and apply experimental methodologies used in the chemistry laboratory

• Demonstrate safe and proper handling of laboratory equipment and chemicals.

• Conduct basic laboratory experiments with proper laboratory techniques.

• Make careful and accurate experimental observations.

• Relate physical observations and measurements to theoretical principles.

• Interpret laboratory results and experimental data, and reach logical conclusions.

• Record experimental work completely and accurately in laboratory notebooks and communicate experimental results clearly in written reports.

• Design fundamental experiments involving principles of chemistry.

• Identify appropriate sources of information for conducting laboratory experiments involving principles of chemistry.

Grade Basis: L
Credit Hours: 4
Lecture hours: 48.0
Lab hours: 48.0

Prerequisites:

• MATH 1314 - COLLEGE ALGEBRA

Chemical equilibrium; phase diagrams and spectrometry; acid-base concepts; thermodynamics; kinetics; electrochemistry; nuclear chemistry; an introduction to organic chemistry and descriptive inorganic chemistry. 

Introduction of the scientific method, experimental design, chemical instrumentation, data collection and analysis, and preparation of laboratory reports.

Upon completion, students will be able to:

• State the characteristics of liquids and solids, including phase diagrams and spectrometry

• Articulate the importance of intermolecular interactions and predict trends in physical properties.

• Identify the characteristics of acids, bases, and salts, and solve problems based on their quantitative relationships.

• Identify and balance oxidation-reduction equations, and solve redox titration problems.

• Determine the rate of a reaction and its dependence on concentration, time, and temperature.

• Apply the principles of equilibrium to aqueous systems using LeChatelier’s Principle to predict the effects of concentration, pressure, and temperature changes on equilibrium mixtures.

• Analyze and perform calculations with the thermodynamic functions, enthalpy, entropy, and free energy

• Discuss the construction and operation of galvanic and electrolytic electrochemical cells, and determine standard and non-standard cell potentials

• Define nuclear decay processes.

• Describe basic principles of organic chemistry and descriptive inorganic chemistry

• Use basic apparatus and apply experimental methodologies used in the chemistry laboratory.

• Demonstrate safe and proper handling of laboratory equipment and chemicals.

• Conduct basic laboratory experiments with proper laboratory techniques.

• Make careful and accurate experimental observations.

• Relate physical observations and measurements to theoretical principles.

• Interpret laboratory results and experimental data, and reach logical conclusions.

• Record experimental work completely and accurately in laboratory notebooks and communicate experimental results clearly in written reports.

• Design fundamental experiments involving principles of chemistry and chemical instrumentation.

• Identify appropriate sources of information for conducting laboratory experiments involving principles of chemistry.

Grade Basis: L
Credit Hours: 4
Lecture hours: 48.0
Lab hours: 48.0

Prerequisites:

• CHEM 1411 - GENERAL CHEMISTRY I

Fundamental principles of organic chemistry will be studied, including the structure, bonding, properties, and reactivity of organic molecules; and properties and behavior of organic compounds and their derivatives. Emphasis is placed on organic synthesis and mechanisms. Includes study of covalent and ionic bonding, nomenclature, stereochemistry, structure and reactivity, reaction mechanisms, functional groups, and synthesis of simple molecules.

This course is intended for students in science or pre-professional programs.

Laboratory activities will reinforce fundamental principles of organic chemistry, including the structure, bonding, properties, and reactivity of organic molecules, and properties and behavior of organic compounds and their derivatives. Emphasis is placed on organic synthesis and mechanisms. Includes study of covalent and ionic bonding, nomenclature, stereochemistry, structure and reactivity, reaction mechanisms, functional groups, and synthesis of simple molecules. Methods for the purification and identification of organic compounds will be examined.

Upon completion, students will be able to:

• Classify organic compounds by structure, molecular orbitals, hybridization, resonance, tautomerism, polarity, chirality, conformation, and functionality.

• Identify organic molecules using appropriate organic nomenclature.

• Describe the principle reactions for syntheses of molecules, ions, and radicals

• Describe organic reactions in terms of radical and ionic mechanisms.

• Describe the use of spectroscopic data to determine the structure of organic molecules

• Formulate appropriate reaction conditions for the synthesis of simple organic molecules.

• Perform chemical experiments, analysis procedures, and waste disposal in a safe and responsible manner.

• Utilize scientific tools such as glassware and analytical instruments to collect and analyze data.

• Identify and utilize appropriate separation techniques such as distillation, extraction, and chromatography to purify organic compounds.

• Record experimental work completely and accurately in laboratory notebooks, and communicate experimental results clearly in written reports.

• Demonstrate a basic understanding of stereochemistry.

• Classify organic compounds by structure, molecular orbitals, hybridization, resonance, tautomerism, polarity, chirality, conformation, and functionality in laboratory reports.

• Identify organic molecules using appropriate organic nomenclature in laboratory reports.

• Perform organic syntheses of molecules.

• Describe organic reactions in terms of radical and ionic mechanisms in laboratory reports.

• Use spectroscopic data to determine the structure of organic molecules.

• Formulate appropriate reaction conditions for the synthesis of simple organic molecules.

Grade Basis: L
Credit Hours: 4
Lecture hours: 48.0
Lab hours: 48.0

Prerequisites:

• CHEM 1412 - GENERAL CHEMISTRY II

Advanced principles of organic chemistry will be studied, including the structure, properties, and reactivity of aliphatic and aromatic organic molecules; and properties and behavior of organic compounds and their derivatives. Emphasis is placed on organic synthesis and mechanisms. Includes study of covalent and ionic bonding, nomenclature, stereochemistry, structure and reactivity, reaction mechanisms, functional groups, and synthesis of simple molecules.

This course is intended for students in science or pre-professional programs.

Laboratory activities reinforce advanced principles of organic chemistry, including the structure, properties, and reactivity of aliphatic and aromatic organic molecules, and properties and behavior of organic compounds and their derivatives. Emphasis is placed on organic synthesis and mechanisms. Includes study of covalent and ionic bonding, nomenclature, stereochemistry, structure and reactivity, reaction mechanisms, functional groups, and synthesis of simple molecules.

Upon completion, students will be able to:

• Correlate molecular structure with physical and chemical properties of aliphatic and aromatic organic molecules.

• Predict the mechanism and outcome of aliphatic and aromatic substitution and elimination reactions, given the conditions and starting materials.

• Predict the chirality of reaction products based on enantiomeric and diastereomeric relationships.

• Describe reaction mechanisms in terms of energetics, reaction kinetics, and thermodynamics.

• Use spectroscopic techniques to characterize organic molecules and subgroups.

• Perform chemical experiments, analysis procedures, and waste disposal in a safe and responsible manner.

• Utilize scientific tools such as glassware and analytical instruments to collect and analyze data.

• Identify and utilize appropriate separation techniques such as distillation, extraction, and chromatography to purify organic compounds.

• Record experimental work completely and accurately in laboratory notebooks, and communicate experimental results clearly in written reports.

• Correlate molecular structure with physical and chemical properties of aliphatic and aromatic organic molecules.

• Predict the mechanism and outcome of aliphatic and aromatic substitution and elimination reactions, given the conditions and starting materials.

• Predict the chirality of reaction products based on enantiomeric and diastereomeric relationships.

• Describe reaction mechanisms in terms of energetics, reaction kinetics, and thermodynamics.

• Use spectroscopic techniques to characterize organic molecules and subgroups.

Grade Basis: L
Credit Hours: 4
Lecture hours: 48.0
Lab hours: 48.0

Prerequisites:

• CHEM 2423 - ORGANIC CHEMISTRY I