BS in Interdisciplinary Computing - Chemistry

Undergraduate Entry Requirements

Application Fee: $85

Academic Requirements: Prospective undergraduate students are required to have a minimum academic achievement of 80% or above in their previous educational qualifications.

English language proficiency:

• IELTS Requirement: An overall IELTS score of 6.5 is required.
• TOEFL Requirement: A minimum overall score of 79 is often required.
• PTE Requirement: A minimum overall score of 53 is often required.

Students must provide:

• academic marksheets & transcripts
• letters of recommendation
• a personal statement - SOP
• passport
• other supporting documents as required by the university.

It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Additionally, some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.

The University of Kansas (KU) in the United States is fostering a diverse and inclusive academic community, and this dedication extends to providing scholarship opportunities for international students. These scholarships aim to support and recognize the academic achievements and contributions of students from around the world.

Global Jayhawk Scholarship: The Global Jayhawk Scholarship is specifically designed for incoming undergraduate international students. This merit-based scholarship takes into account academic achievements, leadership qualities, and a cultural diversity. The award amounts vary, and recipients are selected based on a competitive application process.

International Excellence Award: The International Excellence Award is another notable scholarship program at KU. It is open to both undergraduate and graduate international students across various disciplines. This scholarship recognizes outstanding academic achievements, leadership potential, and the ability to contribute to the university community. Recipients may receive partial to full tuition coverage.

OIP Scholarships: The Office of International Programs (OIP) at KU administers several scholarships to support international students. These scholarships may cover tuition, living expenses, or research-related costs. OIP scholarships often emphasize cultural exchange, community engagement, and academic excellence.

Departmental Scholarships: Many academic departments within the University of Kansas offer department-specific scholarships for international students. These scholarships are often tied to academic performance, research endeavors, or contributions to the department's goals. Prospective students are encouraged to check with their intended academic departments for available opportunities.

Embarking on a Bachelor of Science (BS) in Interdisciplinary Computing with a specialization in Chemistry at the University of Kansas opens doors to a diverse array of exciting career options at the intersection of computational sciences and chemistry.

Computational Chemist: Graduates can pursue roles as computational chemists, leveraging their skills to perform simulations, model chemical processes, and analyze molecular structures. This role is pivotal in drug discovery, materials science, and understanding complex chemical reactions.

Materials Informatics Specialist: With a strong foundation in computing and chemistry, graduates can become materials informatics specialists. They can work on developing algorithms and models to predict material properties, contributing to advancements in materials science, nanotechnology, and manufacturing.

Pharmaceutical Data Scientist: The program equips students with data analysis skills, positioning them for roles as data scientists in the pharmaceutical industry. Graduates can analyze large datasets related to drug interactions, clinical trials, and chemical properties, aiding in drug development and optimization.

Chemical Software Developer: Graduates can pursue careers as software developers specializing in chemical applications. This involves designing and implementing software solutions for computational chemistry, molecular modeling, and laboratory automation, contributing to the advancement of chemical research and technology.

Environmental Cheminformatics Analyst: For those interested in the intersection of chemistry and environmental science, graduates can work as cheminformatics analysts focusing on environmental applications. They can analyze data related to pollutants, climate change, and environmental impact, contributing to sustainable practices and policies.

Computational Spectroscopist: With expertise in both computing and chemistry, graduates can become computational spectroscopists, specializing in the analysis of spectroscopic data. This role is crucial for understanding molecular structures, identifying compounds, and contributing to advancements in analytical chemistry.

Computational Biology and Chemistry Integration Specialist: Given the interdisciplinary nature of the program, graduates can explore roles that bridge computational biology and chemistry. They can work on projects at the intersection of these fields, contributing to research in areas such as bioinformatics, systems biology, and computational drug design.

Chemical Data Analyst for Energy Research: Graduates can contribute to the energy sector as chemical data analysts, working on projects related to renewable energy, fuel cells, and sustainable technologies. Analyzing data on chemical processes can contribute to the development of environmentally friendly energy solutions.

Quality Assurance Specialist in Chemical Manufacturing: With a focus on computational approaches, graduates can work as quality assurance specialists in chemical manufacturing. They can ensure the quality and safety of chemical products using computational modeling and analysis techniques.

Research Scientist in Computational Chemistry Institutes: The program's research focus prepares students for roles as research scientists in computational chemistry institutes. Graduates can actively contribute to cutting-edge research projects, applying computational methods to solve complex chemical problems and advance scientific knowledge.