15 Math Research Programs for High School Students in New York State
If you are interested in diving into mathematics beyond the high school curriculum, consider a math research program. These programs help you explore advanced topics through structured investigation and documentation, and build skills in mathematical reasoning, experimentation, collaboration, and data collection and analysis. You’ll also connect with like-minded students, professors, and researchers who can support your growth and expand your academic network.
Why should you attend a program in New York State?
New York State is home to universities and research centers that host structured math and STEM experiences for motivated high school students. You can take part in problem-solving workshops, research projects, or data-driven studies while learning from professors and graduate mentors. Whether you live in New York or are visiting during your school break, these programs offer an engaging environment to explore mathematics within a supportive academic setting.
To make the search easier for you, we have compiled a list of 15 math research programs for high school students in New York State.
If you're looking for STEM programs in New York State, check our blog here.
1. CCNY’s STEM Institute Summer Program: Math Track
Location: The City College of New York, New York, NY
Cost/Stipend: Free; stipend available
Acceptance rate/cohort size: Not specified
Dates: July 7 – August 7; free spring and fall programs also available
Application deadline: May 25
Eligibility: Students in grades 6 to 12
The CCNY STEM Institute’s Summer Program is a free opportunity designed for high schoolers interested in exploring math, science, tech, engineering, business, and arts through instruction and project-based learning. You will learn from expert instructors and engage in research projects to explore the real-world applications of various fields. The program emphasizes both academic enrichment and personal growth, offering structured skill-building opportunities and support for college and career prep. The math curriculum includes courses such as Precalculus, Calculus I, and Advanced Algebra and Trigonometry, each covering core concepts.
2. CUNY’s STEM Research Academy
Location: Various City University of New York campuses in NYC
Stipend: Varies by campus; typically, ~$1,500 available for summer research participants
Acceptance rate/Cohort size: Selective; cohort size varies by campus
Application deadline: Varies by campus
Dates: Spring courses + summer research; dates vary by campus
Eligibility: Students in grades 9 – 11
CUNY’s STEM Research Academy is a two-semester research program designed for high school students. In the spring, you will learn about scientific research while taking a pre-college course. This will be followed by a summer research experience. Here, you will engage in a six-week research experience within a CUNY laboratory, where you will run experiments, learn how to collect and analyze data, and document your findings. You can highlight your preference for a math-focused placement. At the end of the program, you will present your summer research findings at the American Museum of Natural History.
3. Veritas AI’s AI Fellowship
Location: Virtual
Cost: Varies; financial assistance available
Acceptance rate/cohort size: Selective
Dates: Multiple cohorts in a year
Application deadline: Varies by cohort. You can apply to the program here.
Eligibility: High school students who have completed the AI Scholars program or have experience with Python/AI concepts
Veritas AI runs several virtual programs designed for high school students interested in AI. The AI Fellowship program allows you to explore AI and data science through collaborative learning, project development, and 1-on-1 mentorship. Over 12 to 15 weeks, you will explore key AI and data science concepts and develop your own research project on an AI-based focus area. You can choose to focus on the intersection of AI and math, statistics, or related fields for your project. You can find examples of previous projects here and read about a student’s experience in the program here. The program also offers you support to help you refine your work for future publication.
4. Rockefeller University’s Summer Science Research Program
Location: Rockefeller University, New York, NY
Cost: Free; need-based stipend may be available
Acceptance rate/cohort size: 32 students/year
Dates: June 22 – August 6
Application deadline: January 2
Eligibility: High school juniors and seniors, ages 16 and up
This is a group-based STEM research experience hosted at the Rockefeller University campus. As a participant, you will join a group of peers and work full-time on a mentored laboratory project under the guidance of trainees from the Tri-Institutions (Rockefeller, MSK, and WCMC). You will begin by exploring research techniques and practices, then move on to developing and investigating your own research questions within your team. You can indicate your preference for a math-based research experience. During the program, you will also take elective courses and attend networking events, guest lectures, and workshops. The summer program ends with a formal poster presentation.
5. Lumiere Research Scholar Program: Math Track
Location: Virtual.
Cost: Varies depending on the program type; full financial aid available
Acceptance rate/cohort size: Selective
Dates: Multiple cohorts (fall, summer, spring, and winter) throughout the year
Application deadline: Varying deadlines based on cohort
Eligibility: Current high school students with a strong academic performance
The Lumiere Research Scholar Program is a fully remote, mentored program that helps high school students engage in independent research. The program will pair you with Ph.D. mentors to work 1-on-1 on a research project. You can choose a research question in mathematics or related fields such as data science, computational science, or statistics. The program also offers access to a writing coach who can help you learn how to present your findings. At the end of the 12-week program, you will have developed an independent research paper that you can present at the program’s virtual symposium. You can find more details about the application here.
6. Mathematical Modeling at Mercy University (M3U)
Location: Mercy University Westchester Campus, Dobbs Ferry, NY
Cost/Stipend: Free; an $800 stipend is available.
Acceptance rate/cohort size: Selective
Dates: July 7 – August 2
Application deadline: June 1
Eligibility: High school students in grades 9 – 11 with a B or better grade
The M3U program offers high school students the opportunity to dive into mathematical modeling and gain exposure to math research. As a participant, you will spend approximately four weeks engaging in real-world math problem-solving and exploring the entire modeling process through hands-on laboratory work, classroom instruction, and software-based analysis. The program combines academic training with visits to research centers and museums, exposure to research methodologies, and discussions of ethical concerns in science. You will also produce written reports, conduct experiments, engage in debates and panel discussions, and work on and present a final modeling project during the program.
7. NYU ARISE (Applied Research Innovations in Science and Engineering)
Location: NYU Tandon School of Engineering, New York, NY
Stipend: $1,000
Acceptance rate/cohort size: Not specified
Dates: June 1 – August 14
Application deadline: February 21
Eligibility: Rising high school juniors and seniors who are NYC residents enrolled in NYC schools
ARISE is a 10-week summer research program designed to help high schoolers gain exposure to STEM research and professional labs. You will begin with four weeks of training sessions, learning about research methodologies, scientific writing, and lab safety. In the next six weeks, you will join one of 80+ NYU research labs, where you will work with faculty and graduate mentors on STEM research projects. You can indicate your preference for math-focused placement. You will gain about 120 hours of lab experience during the program. At the end of the program, you will present your research findings to peers and NYU faculty.
8. Army Educational Outreach Program (AEOP) High School Internships
Location: Multiple U.S. universities and labs, including various sites in New York
Stipend: Available (amount not specified)
Cohort size: Varies by site
Dates: 6 – 10 weeks in the summer; dates vary based on the opportunity
Application deadline: Rolling basis
Eligibility: High school students; additional requirements may vary for each internship opportunity
AEOP’s Internships are Army-sponsored STEM research opportunities designed for high schoolers. As a participant, you will contribute to ongoing research under the guidance and supervision of a university researcher or a Department of Defence scientist. You may be assigned tasks like experimentation, data collection, analysis, and comparison of data sets. You can indicate your preference for a math-focused research placement or opportunities that require statistics, modelling, or computational skills. During the program, you will participate in workshops, online tutorials, webinars, and learning materials to develop professional skills and become better equipped for future STEM academics.
9. Stony Brook Simons Summer Research Program
Location: Stony Brook University, Stony Brook, NY (less than 1.5 hours away from NYC)
Cost/Stipend: No tuition; a $2,450 housing fee is applicable for residential participants. Stipends are available.
Acceptance rate/cohort size: ~5% applicants selected/year
Dates: June 29 – August 7
Application deadline: February 5
Eligibility: High school juniors who are at least 16 years of age by the start of the program and are U.S. citizens/permanent residents
The Simons Summer Research Program offers you the chance to engage in rigorous, hands-on research alongside Stony Brook University faculty. For those interested in mathematics, the program provides opportunities to explore questions in advanced mathematical theory, computational methods, and real-world problem-solving within active research groups. You will learn research techniques, collaborate with mentors, and contribute to ongoing mathematical investigations spanning applied math, discrete math, modeling, and theoretical analysis. You will also attend weekly faculty lectures, workshops, campus tours, and program events, and present your work at the final poster symposium.
10. NYU Courant Institute’s Summer Math Program for Young Scholars
Location: New York University, New York, NY
Cost: $2,500; limited scholarship support may be available
Acceptance rate/cohort size: Selective
Dates: August 10 – 28
Application deadline: March 31
Eligibility: High school students currently enrolled in grades 9 – 11 who have taken Algebra I and scored a grade of B- or higher
The Summer Math Program for Young Scholars at NYU is a rigorous three-week immersion into advanced mathematical study for high school students. You will explore college-level topics such as number theory, graph theory, topology, combinatorics, and computer science through faculty-led lectures and collaborative problem-solving sessions. The program focuses on helping you build deep mathematical reasoning, independent inquiry, and exposure to research-style thinking. The program also includes mathematical games, puzzle sessions, and daily talks on the applications of mathematics and the college transition.
11. NYU GSTEM (Girls in Science, Technology, Engineering & Mathematics)
Location: NYU, New York, NY
Cost: $5,750 (tuition) + optional $3,840 (for housing and meals); financial aid available
Acceptance rate/cohort size: 40 students/year
Dates: June 29 – August 7
Application deadline: March 1
Eligibility: 11th graders
GSTEM is a six-week research program designed for rising high school seniors interested in exploring STEM pathways at the collegiate and professional levels. You will be paired with NYU faculty or researchers to complete an individualized research project, which can focus on math or related research areas. The program integrates research with structured academic support, providing workshops on scientific writing, data analysis, and presentation skills. The experience culminates in a final presentation that you will deliver to peers and faculty at an end-of-program symposium.
12. Cooper Union Summer STEM
Location: Cooper Union, New York, NY
Cost: Six-week Course fee: $5,150 | Three-week course fee: $3,150; need-based financial aid available
Acceptance rate/cohort size: Selective
Dates: Three-week session 1: July 6 – 23 | Three-week session 2: July 27 – August 13 | Six-week session: July 6 – August 13
Application deadline: March 22
Eligibility: Students who have completed 9th, 10th, or 11th grade when the program starts
The Cooper Union Summer STEM Program offers high schoolers a hands-on introduction to engineering, design, computation, and applied math. You will choose between a three-week and a six-week course in STEM and engage with college-level material drawn from real Cooper Union undergraduate coursework and ongoing faculty research. Courses span technical areas such as embedded systems, computational physics, data visualization, sustainability engineering, fabrication, interactive art, and mathematical pattern analysis. You will also gain exposure to Cooper Union’s student and faculty research projects and the opportunity to work on your own project and present it at the end of the program.
13. Institute for Mathematics and Democracy’s High School Summer Research Program
Location: Virtual
Cost: Free
Acceptance rate/cohort size: Not specified
Dates: Late June – early August (six weeks)
Application deadline: March 6
Eligibility: High school students
The Institute for Mathematical Democracy runs a six-week virtual research program designed for high school students. Here, you will join a small group to work on data-driven projects while working with real electoral or census data and investigating mathematical and civic questions. You will connect with your instructors twice a week and join the full cohort each week to attend guest lectures led by mathematicians and experts in democracy reform. The program also offers a session focused on the college application process. The experience concludes with the presentation of your research. In the past, projects have focused on topics like empirical tests of the Median Voter Theorem, the effect of court decisions on gerrymandering metrics, how alternative sizes or apportionments of the U.S. House affect presidential elections, and models of proportional representation and multi-member districts.
14. George Mason University Aspiring Scientists Summer Internship Program (ASSIP)
Location: Virtual internships available for New York students
Cost/Stipend: $25 application fee with need-based fee waivers available; no stipend
Acceptance rate/cohort size: Not specified
Dates: June 18 – August 12
Application deadline: February 15
Eligibility: Students who are at least 15 years old
ASSIP offers fully remote research internships in various fields, including math, statistics, and data science. You can choose a mentor whose research interests align with yours. Over the course of eight weeks, you will connect with your mentor through virtual sessions, contribute to research, gain exposure to advanced lab tools and university resources, and access opportunities to build scientific writing and communication skills. During the program, you will also gain some insights into career paths while participating in discussions led by professors and STEM professionals. The program ends with a symposium, where you will learn about the research conducted at ASSIP over the summer.
15. Stanford University Mathematics Camp (SUMaC)
Location: Online format available
Cost: $3,750; financial aid available
Acceptance rate/cohort size: 64 virtual participants/year
Dates: Session 1: June 15 – July 3 | Session 2: July 6 – 24
Application deadline: February 2
Eligibility: Rising high school juniors and seniors
SUMac is a program designed for students passionate about exploring advanced mathematics. As a participant, you will explore topics like abstract algebra and number theory through lectures, group-based problem-solving, and guided research work. The program exposes you to current areas of mathematical inquiry, the evolution of key math theories, and applications of math across scientific fields. You will choose one out of two structured courses: one focused on algebra and number theory, and the other on algebraic topology, both of which connect classical mathematics to modern applications. The participant workload mirrors college-level coursework.
Image source - NYU Tandon