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

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

at South Dakota State University USA

Overview

A degree in Studio Art prepares majors for careers as fine artists, graduate study in fine arts, and entry-level positions in art and graphic design. The degree focuses on the breadth of general studies combined with visual arts studies where majors receive certificates in one or more of the following areas: Animation, Art History, Ceramics, Painting, Printmaking, Sculpture. A 30-hour visual arts core supports the degree and creates a foundation of success in art related fields.

Student Learning Outcomes
Upon completion of the Studio Art program, students will be able to:

  • Apply the basic principles of visual organization, in two and three dimensions, to the creation and the analysis of works of art. This includes the application of fundamental drawing skills, design concepts, color theory, and studio specific applications. (Cross-Curricular Skills: Inquiry and Analysis; Integrative Learning)
  • Generate a body of original works of art in their chosen area of specialization that exhibits a coherent set of artistic/intellectual goals. This includes the application of the relevant technologies and media associated with their area of specialization as well as other studio disciplines. (Cross-Curricular Skills: Foundation of Lifelong Learning Skills; Critical and Creative Thinking; Problem Solving; Integrative Learning)
  • Analyze and critically evaluate works of art and design from various cultures and historical periods as well as the ability to apply art historical context to their own work. (Cross-Curricular Skills: Inquiry and Analysis; Critical and Creative Thinking; Diversity, Inclusion, and Equity)
  • Articulate, both orally and written, a critical discourse on their artwork and processes, the artwork of others, and art history through the appropriate application of art and design language and concepts. (Cross-Curricular Skill: Integrative Learning)
  • Demonstrate the skills required by professional artists in the communication, documentation, and exhibition of their artwork and experience. (Cross-Curricular Skill: Integrative Learning)
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30

Application Processing Days

Under Graduate

Program Level

Fact & Figures

Full Time On Campus

Study Mode

48

Duration

South Dakota State University

Location

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

$12675

Tuition Fee

$0

Average Cost of Living

$20

Application Fee

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

  • Minimum Level of Education Required: To be accepted into this program, applicants must have Grade 12 / High School Diploma.
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Work Permit USA

Optional Practical Training or OPT is a period during which students, who have completed their degrees in the USA, are permitted to work for one year on a student visa by the United States Citizenship and Immigration Services (USCIS). OPT allows students to work for up to 3 years and develop real-world skills to survive in the competitive jobs market.

It is temporary employment for a period of 12-months that is directly related to the major area of study of an F-1 student. Eligible students have the option to apply for OPT employment authorization before completing their academic studies and/or after completing their academic studies.

A student can participate in three types of Optional Practical Training (OPT):

  1. Pre-Completion OPT: This is temporary employment provided to F-1 students before completion of their course of study.
  2. Post-Completion OPT: This is temporary employment available to F-1 students after completing their course of study.
  3. 24 Month STEM Extension: Students enrolled in STEM (Science, Technology, Engineering, and Mathematics) courses can a 24-month extension after their initial Post-Completion OPT authorization. 

Detailed Program and Facts

30

Application Processing Days

Full Time On Campus

Program Intensity

Under Graduate

Program Level

48

Duration

Study Visa

English Test Requirement

5.5

Minimum Overall Score

61.0

Minimum Overall Score

44.0

Minimum Overall Score

Other Courses by South Dakota State University,USA

A major in Communication Studies prepares students to understand the central role that communication plays in people’s lives. Graduates of this program will receive the training, expertise and background that will promote professional success in a wide variety of career areas where communication is a critical requirement.

Student Learning Outcomes
Graduates in Communication Studies will be able to:

  • Describe the Communication discipline and its central questions by employing communication theories, perspectives, principles, and concepts. (Cross-curricular Skill: Inquiry and Analysis)
  • Engage in Communication inquiry. (Cross-curricular Skill: Inquiry and Analysis)
  • Create and critically analyze messages appropriate to the audience, purpose, and context. (Cross-curricular Skill: Critical and Creative Thinking)
  • Demonstrate the ability to accomplish communicative goals (self-efficacy). (Cross-curricular Skill: Foundational Lifelong Learning Skills)
  • Prepare for ethical public influence that embraces differences. (Cross-curricular Skill: Civic Knowledge and Engagement; Diversity, Inclusion and Equity)

48 month

Duration

$ 12675

Tuition

Students majoring in Consumer Affairs who pursue the Family Financial Management specialization are usually interested in financial markets, financial decision, economics, business concepts and working with individuals to develop personal financial management skills. Required courses for the Family Financial Management specialization focus on principles and practice of insurance planning, investment strategies, income tax planning, retirement preparation, and estate planning.

Completion of the Consumer Affairs major and Family Financial Management specialization prepares students to engage in a variety of careers such as: financial services, financial planning, credit/financial counseling, human resources, marketing and sales.

Student Learning Outcomes

  • Students will apply the consumer decision-making process to improve consumer well-being.
  • Students will demonstrate effective resource management skills. (Cross-curricular Skill: Inquiry and Analysis; Foundational Lifelong Learning Skills)
  • Students will integrate knowledge of policy and community resources to solve consumer issues. (Cross-curricular Skill: Information Literacy; Problem Solving)
  • Students will increase knowledge, awareness, and understanding of individual and social differences in consumer behavior. (Cross-curricular Skill: Diversity, Inclusion and Equity)

48 month

Duration

$ 12675

Tuition

Natural Sciences & Mathematics

Bachelor of Science, Major in Biochemistry

One of the fastest growing scientific disciplines is also one of the youngest – biochemistry. Biochemistry is the application of atomic and molecular principles to the function of plant and animal life processes. This multifaceted science includes the study of all life forms and depends on basic concepts derived from chemistry, biology, physics, and mathematics. Training in biochemistry at the undergraduate level positions students well for careers in biotechnology, pharmaceutical development, government laboratories, and is very appropriate as a pre-professional course of study. The B.S. in Biochemistry curriculum at SDSU builds upon a solid foundation in chemistry, and incorporates selected aspects of biology, physics, and mathematics to complete the undergraduate degree. In addition to completing the degree requirements listed below, biochemistry students engage in undergraduate research with faculty members in the department.

Student Learning Outcomes

  • Students will understand the basic concepts fundamental to chemistry.
  • Students will be properly prepared for laboratory investigations.
  • Students will understand the nature of biological energy.
  • Students will understand catalysis.
  • Students will be able to describe energetic coupling of chemical processes in metabolic pathways.
  • Students will be able to describe biological macromolecules.
  • Students will describe the factors which determine the structure of biological macromolecules.
  • Students will be able to relate structure and function.
  • Students will be able to describe macromolecular interactions.
  • Students will understand that macromolecular structure is dynamic.
  • Students will be able to discuss regulation of the biological activity of macromolecules.
  • Students will be able to relate the structure (and hence function) with the foundational principles of chemistry and physics.
  • Students will be able to use a variety of experimental and computational approaches to observe and quantitatively measure the structure, dynamics and function of biological macromolecules. (Cross-curricular Skill: Inquiry and Analysis; Critical and Creative Thinking; Problem Solving)
  • Students will be able to describe the genome.
  • Students will be able to discuss the relationship between nucleotide sequence and biological function.
  • Students will be able to explain gene transmission from one generation to the next.
  • Students will be able to describe genome maintenance.
  • Students will understand the scientific process. (Cross-curricular Skill: Inquiry and Analysis)
  • Students will be able to assess, comprehend, and communicate science. (Cross-curricular Skill: Inquiry and Analysis)
  • Students will be able to rely on collaboration, effective teamwork, safety, and ethical practices. (Cross-curricular Skill: Teamwork; Diversity, Inclusion and Equity)
  • Students will be able to describe the biological need for homeostasis.
  • Students will be able to link steady state processes and homeostasis.
  • Students will be able quantify homeostasis.
  • Students will be able to describe control mechanisms.
  • Students will be able to describe cellular and organismal homeostasis.
  • Students will be able to synthesize the curricular knowledge and skills in a capstone (research) experience. (Cross-curricular Skill: Inquiry and Analysis; Information Literacy)

48 month

Duration

$ 12675

Tuition

Natural Sciences & Mathematics

Master of Science in Mathematics

The focus of the M.S. in Mathematics program is the development of sophisticated mathematical models and their implementation on high performance computing platforms. The curriculum features a balance of application, computation, and theory with particular emphasis in the areas of operations research, computational science, and the development of probabilistic and deterministic models. Areas of faculty and graduate student research activity include computational biology, computational finance, molecular dynamics simulation, operations research, optimization, and Ramsey theory. The program is particularly effective at preparing graduates to work in business, industry, or government as well as preparing students to continue on to the CSS Ph.D. or other Ph.D. program.

Student Learning Outcomes

  • Students will understand mathematical or statistical models.
  • Students will be able to construct and apply standard mathematical and statistical models.
  • Students will be able to solve problems using appropriate software to implement the appropriate models.
  • Students will be able to disseminate the results of their work to others.
  • Students will be able to apply Argument Deconstruction in mathematics and statistics.

24 month

Duration

$ 12547

Tuition

SDSU, in partnership with the University of Minnesota (U of MN), is offering a collaborative Professional Program in Veterinary Medicine leading to a Doctor of Veterinary Medicine (DVM) degree. Students must first complete all their pre-veterinary requirements and then can apply to the new professional program.  Students admitted to the professional program will be allowed to dual-enroll in the Biological Sciences (M.S.) - Veterinary Medicine Specialization, thus having the opportunity to simultaneously earn an M.S. degree while completing the PPVM coursework needed for transitioning to the University of Minnesota to complete the final two years of the DVM degree. For more information visit the Association of American Veterinary Medical Colleges, Veterinary Medical College Application Service (VMCAS).

Student Learning Outcomes

Students will:

  • Demonstrate understanding of central biological principles and mechanisms that underlie animal health and disease from the molecular to histologic to gross levels.
  • Demonstrate knowledge of normal function and behavior, pathophysiology, clinical manifestations, diagnosis, treatment, and management or control of important domestic and foreign animal diseases.
  • Demonstrate understanding of food safety, zoonotic disease, and public health issues.
  • Retrieve and integrate information from the veterinary literature.
  • Ability to understand and interpret research related to mechanisms of disease, diagnostic technology, and treatments.

24 month

Duration

$ 12547

Tuition

The curriculum in the Biology Secondary Education specialization is designed to provide students with the background needed for a successful career teaching biology in middle and high schools. Students complete a broad distribution of courses that include all the major areas in Biology as well as coursework in pedagogical and professional development. For secondary education majors that may teach in a rural school or apply to graduate school, speak to an advisor about taking additional chemistry, physics, and math classes.

Student Learning Outcomes
Upon completion of the Biology major with a Secondary Education specialization, students will:

  • Demonstrate understanding and application of evolution; biological structure and function; biological and biochemical pathways and transformations of energy and matter; and biological systems.
  • Apply the process of science.
  • Demonstrate understanding of and application of quantitative reasoning; information flow, exchange, and storage; relationship between science and society.
  • Tap into the interdisciplinary nature of science.
  • Communicate and collaborate with other disciplines.
  • Understand how learners grow and develop, recognize that patterns of learning and development vary individually within and across the cognitive, linguistic, social, emotional, and physical areas, and design and implement developmentally appropriate and challenging learning experiences.
  • Understand and use multiple methods of assessment to engage learners in their own growth, to monitor learner progress, and to guide the teacher’s and learner’s decision making.
  • Plan instruction that supports every student in meeting rigorous learning goals by drawing upon knowledge of content areas, curriculum, cross-disciplinary skills, and pedagogy, as well as knowledge of learners and the community context.
  • Understand and use a variety of instructional strategies to encourage learners to develop deep understanding of content areas and their connections, and to build skills to apply knowledge in meaningful ways.

48 month

Duration

$ 12675

Tuition

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 human society’s most pressing scientific problems. The Chemistry Education program will prepare students for careers in high-quality teaching of chemistry at the secondary/high school level. The curriculum consists of a set of core requirements for students to acquire fundamental chemistry content knowledge and skills shared by all high-quality chemistry teachers, requirements for cognate knowledge development and skills acquisition (e.g., mathematics and other sciences), while meeting the state licensure requirements to teach high school. The core requirements provide foundational understanding in all five sub-disciplines of chemistry (analytical, biochemistry, inorganic, organic, and physical), representing breadth of content knowledge.  The curriculum also allows for exploration into the depth of chemistry content by including elective coursework in chemistry, environmental chemistry, and a capstone research course.

Student Learning Outcomes

Upon completing a major in Chemistry Education, 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)
  • Demonstrate teaching effectiveness. (Cross-curricular Skill: Diversity, Inclusion and Equity)
  • Illustrate learner development.
  • Recognize learning differences and learning environments. (Cross-curricular Skill: Diversity, Inclusion and Equity)
  • Formulate content knowledge.
  • Implement uses of multiple methods of assessment to engage learners in their own growth, to monitor learner progress, and to guide the teacher’s and learner’s decision making.
  • Create plans of instruction that supports every student in meeting rigorous learning goals by drawing upon knowledge of content areas, curriculum, cross-disciplinary skills, and pedagogy, as well as knowledge of learners and the community context.
  • Use a variety of instructional strategies to encourage learners to develop deep understanding of content areas and their connections, and to build skills to apply knowledge in meaningful ways.
  • Engage in ongoing professional learning and use evidence to continually evaluate his/her practice, particularly the effects of his/her choices and actions on others (learners, families, other professionals, and the community), and adapt practice to meet the needs of each learner.
  • Seek appropriate leadership roles and opportunities to take responsibility for student learning, to collaborate with learners, families, colleagues, other school professionals, and community members to ensure learner growth, and to advance the profession.

48 month

Duration

$ 12675

Tuition

The Community Development specialization provides students the opportunity to study with leading educators and researchers from several different universities representing a diversity of fields including Community and Regional Planning, Architecture, Sociology, American Indian Studies, Economics and Natural Resources. This program is designed for people doing community development work in non-profit organizations, colleges, communities, community organizations and governments. The program welcomes those working in all areas to help communities and regions build their capacity for an inclusive, sustainable future; those who volunteer their time and resources to support community; and most of all those with a passion for working toward a brighter future and a willingness to share their experience and wisdom with others via the Internet community.  A student guide to the program is available upon request.

Student Learning Outcomes

  • Professional knowledge of community development (CD) theory, methods, practices, and ethics.
  • The ability to create and implement planning and action for community change toward more prosperity for all.
  • Communication skills appropriate for both academic and public audiences.

24 month

Duration

$ 12547

Tuition

A major in Interior Design prepares students for professional practice, through research informed, design thinking infused and practice-based projects and opportunities that will strengthen their rational and creative thinking. Very broadly, it seeks to teach students the importance and value of the design process and design thinking, promote the awareness and knowledge of the contributions of the profession to the health, safety and well being of people in the built environment, and to prepare graduates of the program to succeed as professional designers. Upon graduation from this CIDA (Council of Interior Design Accreditation) Accredited program, students are eligible to begin the NCIDQ (National Council of Interior Design Qualification) certificate examination process.

The curriculum is interactive, haptic and performance based, offering problem solving experiences in all major areas of design practice (i.e. healthcare, retail, corporate, residential, etc.), in addition to areas of focused instruction including human factors and behaviors, materials, history, building systems and construction, building codes and regulations, lighting, acoustics and professional practice. The overarching goal of the interior design program is to provide a transformative teaching and learning environment where passion and creativity are fostered, and careers are shaped. This is accomplished through four main goals woven into each project and opportunity delivered across the program: to be experiential, to be contextual, to be collaborative, to be empathetic.

Student Learning Outcomes
Upon completion of the Interior Design major, students will be able to:

  • Synthesize research findings to inform design solutions. (Cross-curricular Skill: Inquiry and Analysis; Diversity, Inclusion and Equity)
  • Create interior environments infused with design-thinking. (Cross-curricular Skill: Critical and Creative Thinking; Problem Solving)
  • Apply practice-based knowledge and skill sets to interior spaces. (Cross-curricular Skill: Teamwork; Ethical Reasoning)

48 month

Duration

$ 12675

Tuition

Electrical engineers play key roles in solving technical problems in many areas including biomedical engineering, communications, computers and digital hardware, electronic materials and sensor devices, image processing, control systems, alternative energy and power systems.

The program begins the first year developing a strong foundation in mathematics, science, and communication. Unique to SDSU, the EE program boasts a first semester introductory hands-on lab experience followed by a first course in linear circuits and lab in the second semester. Following this are two intensive years of study in circuits, energy conversion, electronics, signal, systems and control theory, electronic material and devices, digital and microprocessor systems. The junior and senior years include courses that cover the breadth and depth of the field.  During their senior year, students will select a specialization and take technical electives in their chosen area. The capstone of the program is Senior Design I and II, a two-semester sequence taken in the senior year that places every student on a team that designs, builds, tests, and demonstrates a significant electrical engineering project (typically industry sponsored), which 1) incorporates appropriate engineering standards and multiple constraints, and 2) is based on the knowledge and skills acquired in earlier course work; students also take a Project Management and Engineering Economics course that supports this sequence. The projects are developed in collaboration with SDSU researchers or industry and provide students valuable “real world” team design experience.

Program Educational Objectives
The undergraduate EE program educational objectives are to equip individuals who, after graduation and initial work experience,

  •  Provide innovative and state-of-the-art approaches to solving complex technical problems through application of sound electrical engineering principles and make high quality technical decisions based on accumulated knowledge, experience, wisdom and common sense.
  • Create positive organizational impact through individual contribution and teamwork with a commitment to working with others of diverse culture and interdisciplinary backgrounds.
  • Demonstrate professional stewardship and ethical responsibility and exemplify a productive member of society by serving their communities and society.
  • Illustrate initiative and successful career growth through measurable and impactful contributions that strongly support the organization’s core high-level goals, accompanied by lifelong learning through graduate work, professional development and self-study, leading to increases in organizational responsibility.

Student Outcomes
All graduates will have:

  • An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.
  • An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
  • An ability to communicate effectively with a range of audiences.
  • An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.
  • An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives.
  • An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.
  • An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.

48 month

Duration

$ 12675

Tuition

View All Courses by South Dakota State University, USA

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