Experimental and Molecular Medicine

Study mode:On campus Study type:Full-time Languages: English
Local:$ 46.8 k / Year(s) Foreign:$ 46.8 k / Year(s) Deadline: Jan 15, 2026
101 place StudyQA ranking:10163 Duration:4 years

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The Bachelor of Arts (BA) in Experimental and Molecular Medicine at Dartmouth College offers students an in-depth exploration of the fundamental principles underlying modern biomedical research and clinical practice. This interdisciplinary program is designed to prepare students for careers in medical research, healthcare, biotechnology, and related fields by providing a comprehensive education that combines coursework in molecular biology, biochemistry, genetics, cell biology, and physiology with hands-on laboratory experience. Students will engage with topics such as gene expression, cellular signaling pathways, molecular techniques, and the interface between basic science and clinical application. The curriculum emphasizes critical thinking, experimental design, data analysis, and scientific communication, enabling students to develop the skills necessary for innovative research and problem-solving in the biomedical sciences. Throughout the program, students have opportunities for research internships, working alongside faculty on cutting-edge projects that address some of the most pressing challenges in health and medicine today. The program also fosters an understanding of ethical issues in biomedical research and promotes collaboration across scientific disciplines. Graduates will be well-equipped to pursue advanced degrees in medicine, graduate research programs, or careers in biotech and pharmaceutical industries. Dartmouth’s supportive academic community, combined with state-of-the-art facilities and a commitment to experiential learning, ensures that students gain both the theoretical knowledge and practical skills needed to excel in the rapidly evolving field of experimental and molecular medicine.

The Experimental and Molecular Medicine program at Dartmouth College offers a comprehensive and rigorous curriculum designed to prepare students for careers in biomedical research, healthcare, and related fields. This interdisciplinary program emphasizes the understanding of fundamental biological processes at a molecular and cellular level, integrating coursework across biology, chemistry, and medicine to provide students with a solid foundation in experimental techniques and scientific reasoning. Throughout the program, students engage in extensive laboratory research, learning essential skills such as molecular cloning, gene expression analysis, microscopy, and bioinformatics. The curriculum is structured to promote critical thinking, problem-solving, and independent research skills, fostering an environment where students can explore the dynamic world of biomedical science. Students have opportunities to collaborate with faculty on cutting-edge research projects, participate in seminars and workshops, and gain practical experience that prepares them for graduate studies or careers in the biomedical industry. The program also emphasizes ethical considerations and the societal impact of biomedical research, encouraging students to think broadly about their scientific responsibilities. With access to Dartmouth’s state-of-the-art facilities and a vibrant academic community, students in the Experimental and Molecular Medicine program are well-equipped to contribute to advances in medicine and health sciences. Graduates leave the program ready to pursue advanced degrees in medicine, graduate research, or enter the biomedical workforce. The program’s flexible curriculum allows students to tailor their educational experience according to their interests and career goals, making it an ideal choice for aspiring scientists and health professionals committed to making meaningful contributions to biomedical science.

The Experimental and Molecular Medicine program at Dartmouth College requires students to complete a rigorous curriculum designed to provide comprehensive knowledge and practical skills in the fields of molecular biology, biochemistry, genetics, and biomedical sciences. Students are expected to engage in both coursework and research activities that facilitate a deep understanding of experimental techniques and molecular mechanisms underlying human health and disease. The program typically includes core courses such as Advanced Molecular Biology, Cell Biology, Biochemistry, and Research Methods, which lay the foundational knowledge necessary for experimental design and analysis. Alongside these, students undertake specialized electives that can encompass topics like Genetics, Bioinformatics, Immunology, and Structural Biology, allowing them to tailor their education to specific interests within the biomedical sciences.

In addition to coursework, students are required to participate in research projects under the guidance of faculty mentors. This hands-on experience is integral to the program, fostering skills in laboratory techniques, data interpretation, and scientific communication. To complete the program, students must submit a thesis based on their research findings, demonstrating their ability to conduct independent scientific inquiry. The thesis defense typically involves presenting their research to a committee of faculty members and answering questions that assess their understanding and contribution to the field.

Throughout the program, students are encouraged to attend seminars, workshops, and conferences to stay current with advances in experimental and molecular medicine. The program also emphasizes the development of critical thinking, problem-solving, and collaborative skills necessary for careers in biomedical research, academia, or the biotech industry. Upon successful completion, graduates receive a Master of Science or equivalent degree, qualifying them for further study or entry into the workforce as skilled professionals in biomedical research and related fields.


Want to improve your English level for admission?

Prepare for the program requirements with English Online by the British Council.

  • ✔️ Flexible study schedule
  • ✔️ Experienced teachers
  • ✔️ Certificate upon completion

📘 Recommended for students with an IELTS level of 6.0 or below.

Enroll in the course

The Experimental and Molecular Medicine program at Dartmouth College offers a variety of financing options to support students throughout their studies. Tuition fees for graduate programs are set annually and are comparable to other similar programs within the institution. Students can explore multiple funding sources, including fellowships, research assistantships, teaching assistantships, and external scholarships. Dartmouth provides competitive fellowships that cover partial or full tuition costs, often based on merit and academic achievement. Research assistantships typically involve students working in faculty laboratories, assisting with ongoing experimental projects, and may include a stipend in addition to tuition coverage. Teaching assistantships allow students to gain teaching experience while earning a stipend, which also helps offset education costs.

In addition to institutional funding, students are encouraged to seek external scholarships provided by governmental agencies, private foundations, and industry partners. The National Institutes of Health (NIH) offers research training grants that may be applicable to students in medical and molecular research fields at Dartmouth. Many students also leverage external fellowships from organizations such as the National Science Foundation (NSF) or the American Heart Association. Students are advised to apply early and consult Dartmouth’s Office of Graduate Studies for specific deadlines and application procedures.

Dartmouth College also provides comprehensive financial aid counseling to help students navigate funding opportunities. Loan options are available for those who need to supplement their funding, with federal student loans being the most common. The college’s Financial Aid Office offers guidance on financial planning, award packages, and repayment strategies. Additionally, students are encouraged to participate in research projects that may provide stipends, which can help reduce overall educational costs.

Overall, the financing studies at Dartmouth’s Experimental and Molecular Medicine program aim to minimize financial barriers and support students in their academic and research pursuits. The combination of institutional funding, external scholarships, stipends, and loan programs creates a robust support network designed to facilitate successful completion of the program. Dartmouth College values educational accessibility and strives to ensure that qualified students can focus on their research and professional growth without undue financial burden.

The Program in Experimental and Molecular Medicine at Dartmouth College is designed to prepare students for careers in biomedical research and healthcare through an intensive interdisciplinary curriculum. This program emphasizes the integration of experimental techniques, molecular biology, genetics, biochemistry, and clinical applications to foster a comprehensive understanding of human health and disease. Students engage in rigorous coursework, laboratory research, and collaborative projects that develop their technical skills and critical thinking abilities. The curriculum includes foundational courses in molecular biology, biochemistry, cell biology, genetics, and physiology, complemented by advanced seminars and research opportunities. The program encourages active participation in laboratory research, often in collaboration with Dartmouth's medical school and affiliated research institutes. Students are typically mentored by faculty members who are leaders in their fields, providing personalized guidance and fostering a stimulating academic environment. The program aims to prepare graduates for admission to competitive medical, graduate, or professional schools, as well as careers in research institutions, biotech industries, or healthcare settings. Dartmouth's state-of-the-art facilities and access to cutting-edge research resources support students' hands-on training and innovation. The program also promotes interdisciplinary collaboration, enabling students to work across fields such as pharmacology, immunology, bioinformatics, and neuroscience. Overall, this program offers a rigorous and research-oriented pathway for students interested in understanding the molecular mechanisms underlying human health and disease, with the ultimate goal of advancing medical science and improving patient care.

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