• Pearson My Chemistry Lab
• General Chemistry Lab Manual Custom Pearson Utsa Blackboard
• General Chemistry Lab Manuals

Mastering Chemistry is the teaching and learning platform that empowers you to reach every student. When combined with educational content written by respected scholars across the curriculum, Mastering Chemistry helps deliver the learning outcomes that students and instructors aspire to. The laboratory manual is what you would expect. The language can sometimes be confusing, making the procedures hard to follow, but the introduction to the lab is often very help and allows you recall formulas and knowledge from reading the chapters in your text book.

Chemistry for Allied Health Sciences. (3-3) 4 Credit Hours. (TCCN = CHEM 1405) Introduction to atomic structure, chemical bonding, stoichiometry, states of matter, inorganic chemical reactions, and acids and bases. The course has a laboratory component to introduce general chemical laboratory techniques, principles, and methods to reinforce lecture topics. For majors in occupational therapy, prenursing, and dental hygiene.

May not be applied to a major or minor in chemistry, biology, or clinical laboratory sciences. (Formerly CHE 1003 and CHE 1011. Credit cannot be earned for both CHE 1003 and.) Course Fees: IUC1 $15; L001 $30; LRS1 $20; STSI $20. Elementary Organic and Biochemistry. (3-3) 4 Credit Hours. (TCCN = CHEM 1407) Prerequisite: A grade of 'C-' or better in (or CHE 1003 in previous catalogs). A survey of the structures and reactions of some important functional groups of organic chemistry, and the relationship of these functional groups to the chemistry of lipids, carbohydrates, nucleic acids, and proteins.

May not be applied to a major or minor in chemistry. Laboratory examination of the properties of some simple organic and biological chemicals; topics include solubility, crystallization, organic reactions, titration, enzyme action, sugars, and vitamins which will directly reinforce lecture topics. (Formerly CHE 1013 and CHE 1203. Credit can be earned for only ONE of the following: CHE 1013 or or CHE 1203.) Course Fees: IUC1 $15; L001 $30; LRS1 $20; STSI $20. Introduction to the Molecular Structure of Matter. (3-0) 3 Credit Hours.

This course is an introduction to the structure of matter, with focus on the molecules of carbon that comprise living systems. Topics include covalent and ionic bonding, molecular structure, shape, and stability, isomers, organic functional groups and charge distribution in molecules, and bonding in solids. May be applied toward the Core Curriculum requirement in Life and Physical Sciences. Credit cannot be earned for both and.) Course Fees: LRC1 $12; LRS1 $15; STSI $15. Introduction to Molecular Transformations. (3-0) 3 Credit Hours. Prerequisite: A grade of 'C-' or better in and in or higher.

This course is an introduction to the chemical reactions of matter, with focus on basic organic reactions that take place in living systems. Topics include classification of reactions, stoichiometry, reaction energetics, chemical equilibrium, acid-base chemistry, complex equilibria and reaction kinetics.

Pearson My Chemistry Lab

May be applied toward the Core Curriculum requirement in Life and Physical Sciences. Credit cannot be earned for both and.) Course Fees: LRC1 $12; LRS1 $15; STSI $15. General Chemistry I. (3-0) 3 Credit Hours. (TCCN = CHEM 1311) Prerequisite: Completion of with a grade of 'C-' or placement into through the Math Placement Examination or a grade of 'C-' or better in. Concurrent enrollment in is recommended.

An introduction to descriptive inorganic chemistry and atomic-molecular structure, including such fundamental concepts as the periodic system of elements, valency, chemical bonding, reactions and reaction mechanisms, stoichiometry, equilibria, acids and bases, thermochemistry, molecular-kinetic theory, and states of matter. Credit cannot be earned for both.

Generally offered: Fall, Spring, Summer. Course Fees: LRS1 $15; STSI $15. General Chemistry II. (3-0) 3 Credit Hours. (TCCN = CHEM 1312) Prerequisite: A grade of 'C-' or better in or the equivalent.

A continuation of. Elementary inorganic and physical chemistry; topics include solutions, electrolytes, oxidation-reduction reactions, reaction trends, coordination chemistry, basic thermodynamics, chemical kinetics, electrochemistry, and nuclear chemistry. Primarily for science majors. Credit cannot be earned for more than one of the following:, or CHE 1303. Generally offered: Fall, Spring, Summer.

Course Fees: LRS1 $15; STSI $15. General Chemistry I Laboratory. (1-4) 1 Credit Hour. (TCCN = CHEM 1111) Prerequisite: A grade of 'C-' or better or concurrent enrollment in (or ).

An introduction to chemical problem solving and the basic operations of the chemical laboratory, and a survey of inorganic chemical reactions. This course consists of problem sessions, lecture-demonstrations, and/or laboratory experience. Laboratory to accompany. This laboratory includes a lecture component. (Formerly CHE 1122. Credit cannot be earned for both and CHE 1122.) Generally offered: Fall, Spring, Summer.

Course Fees: IUC1 $15; L001 $30; LRS1 $5; STSI $5. General Chemistry II Laboratory. (1-4) 1 Credit Hour.

General Chemistry Lab Manual Custom Pearson Utsa Blackboard

(TCCN = CHEM 1112) Prerequisites: A grade of 'C-' or better in and, and a grade of 'C-' or better or concurrent enrollment in (or ). Techniques of qualitative and quantitative chemical analysis, illustrated primarily via inorganic chemical systems and their reactions. Laboratory to accompany. This laboratory includes a lecture component. (Formerly CHE 1312 and CHE 1132.

Credit cannot be earned for more than one of the following:, CHE 1132 or CHE 1312.) Generally offered: Fall, Spring, Summer. Course Fees: IUC1 $15; L001 $30; LRS1 $5; STSI $5. Principles of Chemistry I. (3-0) 3 Credit Hours. Prerequisites: A grade of 'B-' or better in and a grade of 'B-' or better in, placement into through the Math Placement Examination or admission through the Honors College. The first of a two-part introduction to the chemical sciences for chemistry majors and other students interested in the chemical sciences.

An introduction to chemical reactions and atomic-molecular structure, including chemical formulas and stoichiometry, the periodic system of elements, electrons in atoms, valency, chemical bonding, states of matter, solutions, chemical equilibrium, and acids and bases. Credit cannot be earned for both and.) Generally offered: Fall. Course Fees: LRS1 $15; STSI $15. Principles of Chemistry II. (3-0) 3 Credit Hours. Prerequisites: A grade of 'C-' or better in or a grade of 'B-' or better in.

A continuation of for chemistry majors and other students interested in the chemical sciences. Topics include oxidation-reduction reactions, solubility, coordination complexes, thermochemistry and thermodynamics, electrochemistry, chemical kinetics, and nuclear chemistry. Credit cannot be earned for both and.) Generally offered: Spring. Course Fees: LRS1 $15; STSI $15.

Organic Chemistry I. (3-0) 3 Credit Hours. (TCCN = CHEM 2323) Prerequisite: A grade of 'C-' or better in (or ). A study of the fundamentals of organic structure, reaction mechanisms, synthesis and spectroscopy. Primarily for majors other than chemistry and biochemistry. Discussion and problems amplify and clarify the course topics. Formerly CHE 2203, CHE 2204, and CHE 2604.

Credit cannot be earned for more than one of the following: CHE 2203, CHE 2204, CHE 2604, or ). Generally offered: Fall, Spring, Summer. Course Fees: LRS1 $15; STSI $15. Organic Chemistry I Laboratory. (1-4) 2 Credit Hours. Prerequisites: A grade of 'C-' or better or concurrent enrollment in. The first of two semesters of organic chemistry laboratory.

Qualitative analysis and determination of the physical constants of organic compounds. Separation, identification, and elementary synthesis of organic compounds. Laboratory techniques—crystallization, distillation, chromatographic and spectroscopic techniques (IR, NMR, MS)—are emphasized. This laboratory includes a lecture component. (Formerly CHE 2242. Credit cannot be earned for both and CHE 2242.) Generally offered: Fall, Spring, Summer. Course Fees: IUC1 $15; L001 $30; LRS1 $10; STSI $10.

Organic Chemistry I for Majors. (3-0) 3 Credit Hours.

Prerequisite: A grade of 'C-' or better in (or ). An in-depth study of the organic structure, reaction mechanisms, synthesis and spectroscopy. Primarily for chemistry and biochemistry majors. Discussion and practice of problems amplifying and clarifying the course.

Formerly CHE 2203, CHE 2204, and CHE 2604. Credit cannot be earned for more than one of the following: CHE 2203, CHE 2204, CHE 2604, or.) Course Fees: LRS1 $15; STSI $15.

Quantitative Topics for Chemists. (3-0) 3 Credit Hours. Prerequisite: A grade of 'C-' or better in. This course is intended for students majoring in chemistry and serves as a prerequisite for the introductory courses in physical chemistry. Topics include: power series, linear algebra, determinants, matrices, vector spaces, multi-variable calculus (partial differentiation, multiple integrals), complex variables, ordinary differential equations, numerical analysis, and numerical methods in integration, probability, statistics, regression methods and symbolic programming. (Formerly CHE 2802.

Credit cannot be earned for both CHE 2802 and.) Generally offered: Spring. Course Fees: LRS1 $15; STSI $15. Analytical Chemistry. (2-5) 4 Credit Hours. Prerequisites: A grade of 'C-' or better in (or ). Topics in quantitative analysis including wet chemical and basic instrumental analysis; gravimetric, volumetric, electrochemical and spectrophotometric determinations combined with error analysis; fundamentals of chemical separations; applications of stoichiometry and chemical equilibria to design efficient analytical protocols. (Formerly CHE 3103 and CHE 3213.

Credit cannot be earned for more than one of the following: CHE 3103, CHE 3213, or.) Generally offered: Fall, Spring. Course Fees: IUC1 $15; L001 $30; LRS1 $20; STSI $20. Descriptive Inorganic Chemistry.

(3-3) 4 Credit Hours. Prerequisites: A grade of 'C-' or better in (or ) and; concurrent enrollment in recommended. The basic principles of inorganic chemistry applied to the properties, reactions, and periodicity of inorganic elements and compounds. Includes the synthesis and characterization of inorganic compounds and the use of specialized laboratory techniques. (Formerly CHE 3264.

Credit cannot be earned for both and CHE 3264.) Generally offered: Fall, Spring. Course Fees: IUC1 $15; L001 $30; LRS1 $20; STSI $20. Organic Chemistry II Laboratory. (1-4) 2 Credit Hours. Prerequisites: Grades of 'C-' or better in (or ). Quantitative and continuing qualitative study of organic reactions and molecular structure through functional group interactions and spectroscopic techniques. Simple and multistep syntheses of organic compounds.

A continuation of. This laboratory includes a lecture component. (Formerly CHE 2342 and CHE 2632.

Credit cannot be earned for more than one of the following: CHE 2342, CHE 2632 or.) Generally offered: Fall, Spring, Summer. Course Fees: IUC1 $15; L001 $30; LRS1 $10; STSI $10. Organic Chemistry II with Biological Applications. (3-0) 3 Credit Hours.

Prerequisite: A grade of 'C-' or better in. Continuing study of fundamentals of structure, mechanism, and reactivity including those in aqueous media and complex biological macromolecules. A continuation of with emphasis in topics relevant to biology. Chemistry B.S. Majors may not substitute this course for.

Credit cannot be earned for more than one of the following: CHE 2303, CHE 2623, or.) Course Fees: LRS1 $15; STSI $15. Physical Chemistry I and Laboratory. (3-3) 4 Credit Hours. Prerequisites: A grade of 'C-' or better in (or ),.

The laws of thermodynamics; free energy and chemical potential; ideal and nonideal gases; equilibria; solutions; kinetic theory of gases; kinetics. Laboratory study of selected physicochemical principles and methods to reinforce lecture topics. Data acquisition, data analysis, and report writing are stressed. (Formerly CHE 3204 and CHE 3803/3811. Credit cannot be earned for more than one of the following: CHE 3204, CHE 3803/3811, or.) (Formerly titled 'Thermodynamics and Kinetics.' ) Generally offered: Fall. Course Fees: IUC1 $15; L001 $30; LRS1 $20; STSI $20.

Physical Chemistry II and Laboratory. (3-3) 4 Credit Hours. Prerequisites: A grade of 'C-' or better in,. Introduction to atomic and molecular quantum chemistry; group theory; electronic, rotational, vibrational, and electronic spectroscopies; and statistical mechanics including ensembles and their use in deriving thermodynamic properties using quantum level information. Laboratory study of selected physicochemical principles and methods to reinforce lecture topics. Data acquisition, data analysis, and report writing are stressed.

General Chemistry Lab Manuals

(Formerly CHE 3224 and CHE 3823/3831. Credit cannot be earned for more than one of the following: CHE 3224, CHE 3823/3831, or.) (Formerly titled 'Quantum Mechanics, Spectroscopy, and Statistical Mechanics.' ) Generally offered: Spring. Course Fees: IUC1 $15; L001 $30; LRS1 $20; STSI $20.

Basic Biophysical Chemistry Lecture/Lab. (3-3) 4 Credit Hours.

Prerequisites: A grade of 'C-' or better in, (or ), and (or ). The primary goal of basic biophysical chemistry is to help students develop a fundamental understanding of the physical principles that drive biological processes, particularly as applied to proteins. Topics covered include protein structure, molecular thermodynamics, structure simulation, basic statistical mechanics, quantum mechanics and spectroscopy. This course cannot be used as an upper-division chemistry elective by students pursuing a B.S. In Chemistry.

Generally offered: Spring. Course Fees: IUC1 $15; L001 $30; LRS1 $20; STSI $20. Instrumental Analysis. (2-5) 3 Credit Hours.

Prerequisites: A grade of 'C-' or better in. Grade of 'C-' or better or concurrent enrollment in (or ). The physical and chemical principles of modern instrumental techniques used for chemical analysis. Topics include emission, absorption, magnetic resonance, and FTIR spectroscopies, mass spectrometry, and chromatography. The use of spectrometric and chromatographic instrumentation in the separation, identification, and quantitation of compounds in chemical systems. (Formerly CHE 4103.

Credit cannot be earned for both and CHE 4103.) Generally offered: Fall, Spring. Course Fees: IUC1 $15; L001 $30; LRS1 $15; STSI $15. (3-0) 3 Credit Hours. Prerequisite: A grade of 'C-' or better in.

Structure and function relationships of biologically important molecules; energy production, storage and utilization; amino acids, nucleic acids, peptides and proteins; intermediary metabolism; lipids and membranes. (Formerly CHE 4503.

Credit cannot be earned from both and CHE 4503. Credit cannot be earned for both. Cannot be taken as a chemistry elective.) Generally offered: Fall, Spring. Course Fees: LRS1 $15; STSI $15. Introduction to Mass Spectrometry.

(2-3) 3 Credit Hours. Prerequisite: A grade of 'C-' or better in (or ), or consent of instructor.

The basic principles of interpreting mass spectra and how they are produced. The effect the method of ion production has on the observed mass spectra, and the theory and operation of various types of mass spectrometers will be covered. The basic theory of ion-molecule reactions and principles and practice of biological mass spectrometry and other advanced topics will be presented. (Formerly CHE 4383. Credit cannot be earned for both and CHE 4383.) Course Fees: IUC1 $15; L001 $30; LRS1 $15; STSI $15. Special Studies in Chemistry.

(3-0) 3 Credit Hours. Prerequisites: Upper-division standing and consent of instructor. An organized course offering the opportunity for specialized study not normally or not often available as part of the regular course offerings. Special Studies may be repeated for credit when the topics vary, but not more than 6 semester credit hours, regardless of discipline, will apply to a bachelor’s degree.

Generally offered: Fall, Spring, Summer. Course Fees: LRS1 $15; STSI $15.

The Department of Chemistry offers a Bachelor of Arts degree in Chemistry, a Bachelor of Science degree in Chemistry, and a Bachelor of Science degree in Biochemistry, as well as a minor in Chemistry. Admission Policy The goal of the Department of Chemistry is to provide undergraduate students a program of study with the highest possible standards. The admission policy of the Department of Chemistry is designed to identify those students most likely to succeed in their undergraduate chemistry education. All applicants for admission to the Department of Chemistry will be admitted to the Department as Pre-Chemistry (PCM) or Pre-Biochemistry (PBC) students.

In an effort to prepare candidates for the computer based written CPPO exam. Intended for those who have qualified to take the CPPO Certification Guide. Certified professional public buyer cppb. CPPB prep guide. [National Institute of. Titles: CPPB prep guide. Certified professional public buyer prep guide. By fosson updated 2011-11-17. Confirm this. Certified Public Procurement Officer (CPPO) Exam Prep. State & Local Government Procurement: A Practical Guide - NASPO (item is available for purchase. CPPO Prep Guide on Amazon.com. *FREE* shipping on qualifying offers. The most recent 2011 prep guide from NIGP for the CPPO exam.

In order to declare Chemistry or Biochemistry as a major, a student’s academic performance will be evaluated after the six courses listed below have been completed. Bachelor of Science Degree in Chemistry The Bachelor of Science (B.S.) degree in Chemistry provides opportunities for preparation for careers in industry, governmental agencies, environmental studies, preprofessional programs, and medical technology, and for graduate study in chemistry or other related fields. The degree plan, as described below for the B.S degree in Chemistry, meets the minimum requirements for professional chemists as defined by the American Chemical Society, and recipients receive a certificate from the American Chemical Society. The minimum number of semester credit hours required for this degree, including the Core Curriculum requirements, is 120, at least 39 of which must be at the upper-division level. All major and support work courses must be completed with a grade of “C-” or better.

All candidates seeking this degree must fulfill the Core Curriculum requirements and the degree requirements, which are listed below. Core Curriculum Requirements (42 semester credit hours) Students seeking the Bachelor of Science degree in Chemistry must fulfill University Core Curriculum requirements in the same manner as other students. The courses listed below satisfy both degree requirements and Core Curriculum requirements; however, if these courses are taken to satisfy both requirements, then students may need to take additional courses in order to meet the minimum number of semester credit hours required for this degree. May be used to satisfy the core requirement in Math­ematics as well as a major requirement. The following two courses may be used to satisfy the core requirement in Life and Physical Sciences as well as major requirements:. May be used to satisfy the Component Area Option core requirement as well as a major requirement.

For a complete listing of courses that satisfy the Core Curriculum requirements, see Core Curriculum Component Area Requirements. First Year Experience Requirement 3 Communication 6 Mathematics 3 Life and Physical Sciences 6 Language, Philosophy and Culture 3 Creative Arts 3 American History 6 Government-Political Science 6 Social and Behavioral Sciences 3 Component Area Option 3 Total Credit Hours 42 Gateway Courses Students pursuing the B.S.

Degree in Chemistry must successfully complete each of the following Gateway Courses with a grade of “C-” or better in no more than two attempts. A student who is unable to successfully complete these courses within two attempts, including dropping a course with a grade of “W” or taking an equivalent course at another institution, will be required to change his or her major. Course List Code Title Credit Hours General Chemistry I or Principles of Chemistry I Calculus I Calculus II Degree Requirements Course List Code Title Credit Hours A. Or Special Project in Chemistry 3 Upper-division CHE elective 3 Upper-division CHE elective 3 COS elective 3 Credit Hours 15 Spring Instrumental Analysis 3 Proseminar 1 Free elective 3 Upper-division CHE elective 3 Creative Arts core 3 Credit Hours 13 Total Credit Hours 120 1 These laboratory courses include a lecture component as indicated on the University Schedule of Classes. Note: Some courses are only offered once a year; Fall or Spring. Check with the Department of Chemistry for scheduling of courses.

Bachelor of Science Degree in Biochemistry The Bachelor of Science (B.S.) degree in Biochemistry provides opportunities for preparation for careers in industry, governmental agencies, environmental studies, preprofessional programs, and medical technology, and for graduate study in chemistry or other related fields. The degree plan, as described below for the B.S. Degree in Biochemistry, meets the minimum requirements for professional chemists as defined by the American Chemical Society, and recipients receive a certificate from the American Chemical Society. It utilizes courses from the Chemistry, Biology, and Physics departments to structure education in all the major aspects of Biochemistry. The minimum number of semester credit hours required for this degree, including the Core Curriculum requirements, is 120, at least 39 of which must be at the upper-division level. All major and support work courses must be completed with a grade of “C-” or better.

All candidates seeking this degree must fulfill the Core Curriculum requirements and the degree requirements, which are listed below. Core Curriculum Requirements (42 semester credit hours) Students seeking the B.S. Degree in Biochemistry must fulfill University Core Curriculum requirements in the same manner as other students. The courses listed below satisfy both degree requirements and Core Curriculum requirements; however, if these courses are taken to satisfy both requirements, then students may need to take additional courses in order to meet the minimum number of semester credit hours required for this degree. May be used to satisfy the core requirement in Mathematics as well as a major requirement. The following two courses may be used to satisfy the core requirement in Life and Physical Sciences as well as major requirements:. May be used to satisfy the Component Area Option core requirement.

For a complete listing of courses that satisfy the Core Curriculum requirements, see Core Curriculum Component Area Requirements.