Bachelor of Fine Arts, Major in Studio Art with Specialization in Ceramics

at South Dakota State University USA

Dairy Science is an application of the sciences, engineering and technology, and business toward the study of milk production and processing.  The Dairy Manufacturing major focuses on processing of milk and milk products. The degree is designed to prepare students for a wide range of outstanding, challenging and rewarding career opportunities ranging from industry to private enterprise, government, research and higher education.  Students will develop a knowledge base related to the basic physical, microbiological, chemical and engineering sciences as they are applied to dairy foods.  These sciences are utilized to study the nature and development of dairy products; the unit operations involved in processing and production of quality dairy foods; the causes of deterioration and spoilage, and principles of dairy food preservation.  Students will also be exposed to business operations management as it relates specifically to a dairy processing facility. These skill sets are also utilized by scientists to develop and create approaches for the generation of new dairy food products to assist in feeding the world through provision of products that provide proper nutrition with acceptable taste and texture while maintaining affordability.  Graduates with a degree in Dairy Manufacturing are well prepared for professional positions within the dairy processing industry or for further graduate study in Dairy Science.

Student Learning Outcomes
Upon completion of the Dairy Manufacturing curriculum a graduate should be able to demonstrate the following:

• Understanding of the chemistry underlying the properties and reactions of the various components within a dairy food as they are influenced by processing conditions. (Cross-curricular Skill: Inquiry and Analysis; Critical and Creative Thinking; Problem Solving; Integrative Learning)
• Practical proficiency in laboratory techniques associated with the determination of qualitative and quantitative analytical data related to physical, chemical, biological and microbiological aspects of dairy foods and dairy-based ingredients. (Cross-curricular Skill: Inquiry and Analysis; Critical and Creative Thinking; Teamwork; Problem Solving; Foundational Lifelong Learning Skills; Integrative Learning)
• Understanding of microbial growth and survival as it impacts the safety, preservation and spoilage of dairy food systems. (Cross-curricular Skill: Critical and Creative Thinking; Information Literacy; Problem Solving; Foundational Lifelong Learning Skills; Integrative Learning)
• Understanding of unit operations, process control and sanitation protocols as they relate to the production and preservation of dairy-based foods. (Cross-curricular Skill: Inquiry and Analysis; Critical and Creative Thinking; Problem Solving; Foundational Lifelong Learning Skills; Integrative Learning)
• Understanding of cleaning and sanitation processes and protocols as they impact the control and assurance of quality in the finished dairy food. (Cross-curricular Skill: Critical and Creative Thinking; Teamwork; Problem Solving; Foundational Lifelong Learning Skills; Integrative Learning)
• Practical proficiency in application of Good Manufacturing Principles (GMP’s), Standard Operating Procedures (SOP’s), and Sanitation Standard Operating Procedures (SSOP’s) as a direct result of exposure to these items in an applied manufacturing environment. (Cross-curricular Skill: Teamwork; Problem Solving; Ethical Reasoning; Foundational Lifelong Learning Skills; Integrative Learning; Diversity, Inclusion and Equity)
• Understanding of the laws and regulations governing the manufacture and sale of dairy-based food products. (Cross-curricular Skill: Inquiry and Analysis; Critical and Creative Thinking; Information Literacy; Problem Solving; Civic Knowledge and Engagement; Intercultural Knowledge; Ethical Reasoning; Foundational Lifelong Learning Skills; Integrative Learning; Diversity, Inclusion and Equity)
• General understanding of business operations including finance, human resources, inventory management, infrastructure requirements, loss control and purchasing. (Cross-curricular Skill: Inquiry and Analysis; Critical and Creative Thinking; Information Literacy; Teamwork; Problem Solving; Civic Knowledge and Engagement; Intercultural Knowledge; Ethical Reasoning; Foundational Lifelong Learning Skills; Integrative Learning; Diversity, Inclusion and Equity)
• Ability to utilize verbal and written communication skills effectively in a group environment. (Cross-curricular Skill: Inquiry and Analysis; Critical and Creative Thinking; Information Literacy; Teamwork; Problem Solving; Civic Knowledge and Engagement; Intercultural Knowledge; Ethical Reasoning; Foundational Lifelong Learning Skills; Integrative Learning; Diversity, Inclusion and Equity)
• Ability to apply critical thinking and reasoning skills while ethically applying scientific principles to resolving issues associated with dairy food products and processing systems. (Cross-curricular Skill: Inquiry and Analysis; Critical and Creative Thinking; Teamwork; Problem Solving; Civic Knowledge and Engagement; Ethical Reasoning; Foundational Lifelong Learning Skills; Integrative Learning; Diversity, Inclusion and Equity)

The M.S. in Nutrition and Exercise Sciences provides an opportunity to specialize in Nutritional Sciences or Exercise Science. Students are prepared for careers in clinical, industry, or research fields. A partial list includes clinical dietitians, public health nutritionists, research dietitians, clinical exercise physiology, strength and conditioning, research assistants or coordinators, instructors, or public health officials.

Student Learning Outcomes

• Apply foundational knowledge and skills in the theory and application of nutrition and exercise sciences to professional practice, education, and research.
• Develop effective written and oral communication skills.
• Critically analyze and synthesize scientific evidence to defend a position.
• Demonstrate effective career preparedness.

There is a strong demand for family and consumer sciences teachers and education professionals nationwide.  Through the online Great Plains Interactive Distance Education Alliance (Great Plains IDEA) program, graduates will earn a Master’s of Science in Human Sciences with a specialization in Family and Consumer Sciences Education. Students in the program develop skills in planning curriculum, creating physical and psychological learning environments conducive to learning, developing engaging activities for learners, integrating technology, advising student organizations, working with diverse audiences and analyzing the historical and philosophical underpinnings of the family and consumer sciences profession.  Courses will also address professionalism and applying research to practice.

There are two emphases within this specialization:

• Teacher Licensure/Certification Emphasis - This emphasis is designed for those seeking initial teacher certification and is a teacher preparation focused program.
• Professional Practice Emphasis – This emphasis is designed for practicing professionals in family and consumer sciences education and extension and is a professional development/advancement focused program.

Student Learning Outcomes

• Nutrition - Students will demonstrate comprehensive knowledge of the nutritional value of food and the necessary steps for food preparation and safety.
• Diversity - Students will demonstrate a comprehensive knowledge of multicultural and pluralistic trends, including characteristics and concerns within and among diverse groups nationally and internationally.
• Careers - Students will demonstrate a comprehensive understanding of the varied careers available to individuals who pursue a career in this area.
• Communication - Students will demonstrate critical and innovative thinking.

Psychology is the discipline concerned with the study of behavior and mental processes. It is a tremendously broad field spanning subject matter from the biological to social sciences. The study of psychology prepares students for work in fields like health care, counseling, education, social work, human resources, statistics, probation and corrections, business, politics, public relations, and more. Psychologists are commonly found working in conjunction with other professionals to contribute to every area of society. Advisors assist students to personalize curriculum plans to meet career and educational goals.

Student Learning Outcomes
In the Psychology major, students will:

• Express fundamental knowledge and comprehension of major concepts in psychology. (Cross-curricular Skill: Inquiry and Analysis)
• Apply scientific reasoning to psychological issues/problems. (Cross-curricular Skill: Critical and Creative Thinking; Problem Solving; Ethical Reasoning)
• Show an understanding of diversity and ethical/social responsibility in professional settings. (Cross-curricular Skill: Diversity, Inclusion and Equity)
• Write competently in APA style. (Cross-curricular Skill: Information Literacy)
• Demonstrate oral competency. (Cross-curricular Skill: Information Literacy)

The Department of Biology and Microbiology provides students with a wide range of opportunities for advanced study. The graduate faculty offer expertise and graduate student advisement in subdisciplines from molecular biology through ecology. Faculty members are very successful in obtaining extramural funds to support graduate student projects. Graduate students have modern research laboratories, equipment and field research sites available to carry out their research projects. The learning environment, scholarly excellence and quality of teaching are areas of strength in the department’s Graduate Program.

Student Learning Outcomes

• Knowledge of program: Exhibit knowledge concerning biological and/or microbiological systems/sciences at a level appropriate to a M.S. degree holder.
• Communication skills: Be able to effectively express themselves orally and in written form.
• Understand scientific method: Understand the scientific methods and techniques for solving research problems and analyze scientific data using the appropriate statistics.
• Use statistics to analyze data: Be able to use statistics to analyze scientific data.
• Specialization: Specialize in some area of biology, biotechnology and/or microbiology, but still be broadly based in knowledge in cellular and molecular biology.
• Publish research: Be able to conduct and publish scholarly research. (Option A)
• Professional Development: Demonstrate professional development and competence so that they may enter the work force in academia or industry.

Agricultural Systems Technology graduates serve an increasingly complex agricultural industry in a wide variety of ways. These individuals have a sound fundamental knowledge of agricultural and biological sciences related to the technical, mechanical and energy aspects. This background combined with a solid understanding of the interactions between agriculture and society provides AST graduates many career opportunities. Graduates use their technological knowledge, coupled with managerial and leadership skills, to increase America’s food and energy supply, security, and safety. Graduates may pursue careers in renewable energy such as ethanol and bio-diesel, farm machinery and equipment, natural resources, livestock facilities and systems, and production agriculture.

Student Learning Outcomes

Upon completion of the Agricultural Systems Technology major, students will have:

• The ability to apply knowledge of mathematics and science. (Cross-curricular Skill: Information Literacy)
• An ability to design and conduct experiments, as well as to analyze and interpret data. (Cross-curricular Skill: Inquiry and Analysis)
• An ability to function on multidisciplinary teams. (Cross-curricular Skill: Teamwork)
• An ability to identify, formulate, and solve problems. (Cross-curricular Skill: Problem Solving)
• An understanding of professional and ethical responsibility. (Cross-curricular Skill: Ethical Reasoning)
• An ability to communicate effectively.
• A recognition of the need for, and an ability to engage in life-long learning. (Cross-curricular Skill: Foundational Lifelong Learning Skills)
• A knowledge of contemporary issues.
• An ability to use the techniques, skills, and modern tools necessary to identify solutions to problems.

Sociology majors often make strong teachers because of their understanding of how people behave and interact. Students in this specialization gain mastery of sociology by studying and applying contemporary sociological theory and research to social issues such as globalization, social inequality, diversity, family, religion, or population. Additionally, students complete pedagogy courses to prepare for employment in middle school or senior high level teaching.

Student Learning Outcomes
In the Sociology major, students will:

• Apply sociological theories to understand social phenomena. (Cross-curricular Skill: Diversity, Inclusion and Equity)
• Critically evaluate explanations of human behavior and social phenomena. (Cross-curricular Skill: Critical and Creating Thinking)
• Apply scientific principles to understand the social world. (Cross-curricular Skill: Ethical Reasoning)
• Evaluate the quality of social scientific methods and data.
• Rigorously analyze social scientific data. (Cross-curricular Skill: Inquiry and Analysis)
• Use sociological knowledge to inform policy debates and promote public understanding. (Cross-curricular Skill: Civic Knowledge and Engagement)

Chemistry is often referred to as the central science because of its strong connections to the other natural sciences and mathematics. Chemistry is therefore an area of study that allows students vast opportunity to explore the unknown and to address some of society’s most pressing scientific problems. Professional chemists are employed in a number of diverse fields: governmental policymakers, pharmaceutical and industrial chemists, intellectual property attorneys, high school teachers, and physicians. The curriculum reaches both the breadth and depth of the discipline. Students take a foundational course in each of the five subdisciplines (analytical, biochemistry, inorganic, organic, and physical chemistry) and advanced courses in these subdisciplines based on the student’s individual interests and career goals. Undergraduate training in chemistry at SDSU provides students with enhanced critical-thinking skills and problem-solving abilities, attributes that are highly desired in the modern workforce. The chemistry major is also excellent preparation for professional study in medicine, dentistry, business, and law. The American Chemical Society (ACS), in recognition of the quality and rigor of the curriculum, certifies the B.S. degree in chemistry offered by the Department. In addition to completing the degree requirements listed below, students engage in independent research projects in collaboration with departmental faculty; this capstone experience affords students a means to apply the knowledge of the discipline to questions for which the answers are unknown.

Student Learning Outcomes
Upon completing a B.S. in Chemistry, graduates will:

• Understand the basic concepts fundamental to chemistry.
• Be properly prepared for laboratory investigations.
• Develop in-depth knowledge of at least four of the five subdisciplines of chemistry (analytical, biochemistry, inorganic, organic, and physical).
• Demonstrate knowledge of modern chemistry topics, which could include catalysis, environmental chemistry, green/sustainable chemistry, materials science, and toxicology.
• Be able to design and execute experiments, analyze data, and use the chemical literature. (Cross-curricular Skill: Inquiry and Analysis)
• Be able to synthesize the curricular knowledge and skills in a capstone (research) experience. (Cross-curricular Skill: Inquiry and Analysis; Information Literacy)
• Understand the scientific process and develop problem-solving skills. (Cross-curricular Skill: Problem Solving)
• Retrieve information effectively. (Cross-curricular Skill: Information Literacy)
• Develop chemical safety skills.
• Be able to rely on collaboration, effective teamwork, safety, and ethical practices. (Cross-curricular Skill: Teamwork; Diversity, Inclusion and Equity)
• Learn professional ethics. (Cross-curricular Skill: Ethical Reasoning)
• Have proficiency in essential green chemistry competencies.
• Be able to assess, comprehend, and communicate science. (Cross-curricular Skill: Inquiry and Analysis)

The major in Entrepreneurial Studies is designed to enhance entrepreneurial talent by providing students with the knowledge, skills and experiences to think entrepreneurially and create value in our society. The program allows students to cultivate a mindset for thinking creatively and develop the ability to be innovative. The curriculum emphasizes entrepreneurship, business management, and interdisciplinary electives.

Student Learning Outcomes
Graduates will

• Be able to use analytical methods to make effective decisions. (Cross-curricular Skills: Inquiry and Analysis; Critical and Creative Thinking; Problem Solving)
• Be able to communicate effectively. (Cross-curricular Skill: Information Literacy)
• Be able to evaluate matters of ethics in the profession and the culture more broadly. (Cross-curricular Skills: Ethical Reasoning; Diversity, Inclusion and Equity)
• Have the requisite body of knowledge in management and economics.

The Department of Geography and Geospatial Sciences offers graduate students the opportunity to earn a Master of Science Degree. The curriculum, organized through formal courses, seminars, internship experiences, and supervised research, is designed to prepare students for positions in such professional areas as planning, remote sensing, geographic information sciences, government service, research, business, and teaching. The program also is designed to provide students with the education needed to pursue further graduate study. Students seeking this degree are expected to select courses that will provide a sound foundation in geography (philosophical, physical and human, and research techniques) supported, if appropriate, by courses outside the department. Students may also seek out opportunities such as the cooperative program with the EROS Data Center and/or internships, generally available with planning districts, governmental agencies, business, and industry.

Student Learning Outcomes

• Critical thinking: Demonstrate foundational and specialized knowledge in both the physical and human sciences and their interconnectedness at local, regional, and global scales.
• Critical thinking: Interpret the ethical consequences of global issues concerning the environment to strengthen commitment to local, national, and global citizenship.
• Problem solving: Demonstrate proficiency in the application of appropriate geographical technologies and techniques to address issues in the physical and/or human sciences.
• Written communication: Communicate geographic ideas clearly and effectively (e.g., maps, writing, oral presentations, posters, photos, flowcharts, tables, graphs, and illustrations).
• Creative thinking: Apply observations from laboratory and/or field experiences to analyze problems and offer solutions.
• Creative thinking: Demonstrate the ability to collect, organize, analyze, and synthesize information about people, places, and environments in a spatial-temporal context.
• Inquiry and analysis: Explore complex local, regional, and global issues using a geographical perspective to formulate questions and draw informed conclusions that are based on critical scientific analysis and interpretation of information.