100% of Chemistry Majors Find Employment or Pursue Advanced Education within 6 Months of Graduation
Bachelor of Science Degree in Chemistry
As a chemistry student, you'll enjoy small classes, including introductory chemistry, significant original research experiences in our modern laboratories with well-equipped instrumentation, student-faculty collaboration and varying teaching methods that serve diverse learning styles.
You may want to pursue the opportunity to teach others as a laboratory assistant and to do research and science outreach through our INBRE and NASA grants that will prepare you for careers in industry, research, education or a variety of professional program. Our graduates are often selected for graduate programs in a variety of disciplines.
Since 2010, College of Saint Mary chemistry graduates have enjoyed a 100 percent success rate after graduation, either employed in industry or pursuing advanced education.
Required Courses in Your Major
General Chemistry Lab/Lecture
This course will provide you with a detailed, problem-oriented study of the fundamental principles that govern chemical processes and reactions. The lab component will consist of a series of experiments designed to demonstrate some of the theoretical principles discussed in the lecture, through the employment of a variety of laboratory techniques.
General Chemistry II Lecture/Lab
With this course, you’ll experience a continuation of the problem-oriented study of chemical principles, theory and phenomena begun in CHM 110. The lab will cover a series of experiments designed to complement the material covered in CHM 112.
Analytical Chemistry Lecture/Lab
In this course, you will study the theory of modern methods of quantitative analysis. In the lab component of this course you will apply the concepts covered in the lecture.
Organic Chemistry I Lecture/Lab
This course will provide you with an introduction to the language of organic chemistry, and the theoretical principles that govern organic reactions. You will also be introduced to structures and nomenclature of organic compounds, mechanisms of organic reactions, and many types of different organic reactions. The lab component of this course will provide an introduction to the techniques of separation, isolation and purification of organic compounds. You will also use various techniques to identify organic compounds.
Organic Chemistry II Lecture/Lab
This course is a continuation of the study of organic reactions and their mechanisms. You will be introduced to the theory of organic compound synthesis, and the use of spectroscopy as an analytical tool. The lab component of this course will build on skills from the Organic Chemistry I lab as well as cover materials discussed in the lecture.
Biochemistry Lecture/Lab
In this course, you’ll learn about structure and function of proteins and enzymes, lipids and carbohydrates. The lab focuses on application of basic methods and techniques in biochemistry.
Instrumental Analysis Lecture/Lab
This course explores the physicochemical basis and operation of instrumentation used in qualitative and quantitative analysis. The lab is a hands-on course aimed at training you in the use and maintenance of modern scientific instruments as well as interpretation of the data acquired.
Physical Chemistry Lecture/Lab
This course will give you an introduction to the scientific states and structure of matter thermodynamics, thermochemistry, equilibrium, kinetics and quantum theory. Laboratory experiments are selected to demonstrate physical chemistry principles by employing a variety of laboratory techniques.
Research Chemistry
Under the guidance of a faculty member, you will complete a research project in any of a number of faculty research areas such as bioanalytical chemistry, biological chemistry, organic chemistry, physical chemistry or inorganic chemistry.
Coordinating Seminar
This course offers an integration of special topics in chemistry that have been approached from different points of view in various courses.
Requirements for Graduation from College of Saint Mary
To graduate with a bachelor’s degree in chemistry, you must complete 128 credit hours, comprising 45 credit hours in the major, 40 credit hours in general education courses, 22-24 credit hours in supporting courses, 18 credit hours in a minor, and 1-3 credit hours in electives. For a second major, you must complete 30 credit hours in a second area.
The Assurance of Accreditation
The assurance of regional accreditation means that our degrees have been evaluated for their outcomes — including how well they prepare you to meet the needs of your employers, yourself and our global society. College of Saint Mary is accredited by The Higher Learning Commission.
Undergraduate Admissions Requirements for College of Saint Mary
-
Submit your application
-
Transcripts from any post high school institutions for transfer students. Students who have earned 12 or more credit hours with a minimum GPA of 2.0 from other institutions qualify as transfer students.
Test-Optional Admissions
赌球平台推荐台 accepts undergraduate students with or without test scores (ACT/SAT). Below are a few key details to consider:
- Choosing not to submit test scores will not result in any penalties during the admission or merit scholarship evaluation process.
- If you decide to submit scores after being admitted, we will assess your eligibility for a potential increase in merit scholarship (scores must be submitted by March 31). No merit scholarship will be revoked due to test scores submitted after admission.
Academic Description
100% of Chemistry Majors Find Employment or Pursue Advanced Education within 6 Months of Graduation
Bachelor of Science Degree in Chemistry
As a chemistry student, you'll enjoy small classes, including introductory chemistry, significant original research experiences in our modern laboratories with well-equipped instrumentation, student-faculty collaboration and varying teaching methods that serve diverse learning styles.
You may want to pursue the opportunity to teach others as a laboratory assistant and to do research and science outreach through our INBRE and NASA grants that will prepare you for careers in industry, research, education or a variety of professional program. Our graduates are often selected for graduate programs in a variety of disciplines.
Since 2010, College of Saint Mary chemistry graduates have enjoyed a 100 percent success rate after graduation, either employed in industry or pursuing advanced education.
Accreditation
The Assurance of Accreditation
The assurance of regional accreditation means that our degrees have been evaluated for their outcomes — including how well they prepare you to meet the needs of your employers, yourself and our global society. College of Saint Mary is accredited by The Higher Learning Commission.
Admissions Requirements
Undergraduate Admissions Requirements for College of Saint Mary
-
Submit your application
-
Transcripts from any post high school institutions for transfer students. Students who have earned 12 or more credit hours with a minimum GPA of 2.0 from other institutions qualify as transfer students.
Test-Optional Admissions
赌球平台推荐台 accepts undergraduate students with or without test scores (ACT/SAT). Below are a few key details to consider:
- Choosing not to submit test scores will not result in any penalties during the admission or merit scholarship evaluation process.
- If you decide to submit scores after being admitted, we will assess your eligibility for a potential increase in merit scholarship (scores must be submitted by March 31). No merit scholarship will be revoked due to test scores submitted after admission.
Curriculum
Required Courses in Your Major
General Chemistry Lab/Lecture
This course will provide you with a detailed, problem-oriented study of the fundamental principles that govern chemical processes and reactions. The lab component will consist of a series of experiments designed to demonstrate some of the theoretical principles discussed in the lecture, through the employment of a variety of laboratory techniques.
General Chemistry II Lecture/Lab
With this course, you’ll experience a continuation of the problem-oriented study of chemical principles, theory and phenomena begun in CHM 110. The lab will cover a series of experiments designed to complement the material covered in CHM 112.
Analytical Chemistry Lecture/Lab
In this course, you will study the theory of modern methods of quantitative analysis. In the lab component of this course you will apply the concepts covered in the lecture.
Organic Chemistry I Lecture/Lab
This course will provide you with an introduction to the language of organic chemistry, and the theoretical principles that govern organic reactions. You will also be introduced to structures and nomenclature of organic compounds, mechanisms of organic reactions, and many types of different organic reactions. The lab component of this course will provide an introduction to the techniques of separation, isolation and purification of organic compounds. You will also use various techniques to identify organic compounds.
Organic Chemistry II Lecture/Lab
This course is a continuation of the study of organic reactions and their mechanisms. You will be introduced to the theory of organic compound synthesis, and the use of spectroscopy as an analytical tool. The lab component of this course will build on skills from the Organic Chemistry I lab as well as cover materials discussed in the lecture.
Biochemistry Lecture/Lab
In this course, you’ll learn about structure and function of proteins and enzymes, lipids and carbohydrates. The lab focuses on application of basic methods and techniques in biochemistry.
Instrumental Analysis Lecture/Lab
This course explores the physicochemical basis and operation of instrumentation used in qualitative and quantitative analysis. The lab is a hands-on course aimed at training you in the use and maintenance of modern scientific instruments as well as interpretation of the data acquired.
Physical Chemistry Lecture/Lab
This course will give you an introduction to the scientific states and structure of matter thermodynamics, thermochemistry, equilibrium, kinetics and quantum theory. Laboratory experiments are selected to demonstrate physical chemistry principles by employing a variety of laboratory techniques.
Research Chemistry
Under the guidance of a faculty member, you will complete a research project in any of a number of faculty research areas such as bioanalytical chemistry, biological chemistry, organic chemistry, physical chemistry or inorganic chemistry.
Coordinating Seminar
This course offers an integration of special topics in chemistry that have been approached from different points of view in various courses.
Degree Requirements
Requirements for Graduation from College of Saint Mary
To graduate with a bachelor’s degree in chemistry, you must complete 128 credit hours, comprising 45 credit hours in the major, 40 credit hours in general education courses, 22-24 credit hours in supporting courses, 18 credit hours in a minor, and 1-3 credit hours in electives. For a second major, you must complete 30 credit hours in a second area.