15 Technology Internships for High School Students in New Hampshire

Technology internships in high school can give you a meaningful edge early on. They allow you to move beyond classroom learning and test out areas like coding, data analysis, AI, or engineering in practical settings. New Hampshire is a great place for high school tech internships because the state offers plenty of hands-on, paid opportunities in fields like software development, networking, and advanced manufacturing. You get to work directly alongside industry experts on real-world projects, giving you a head start on your future careers before they even begin college.

Why should I do a technology internship in high school?

A technology internship allows you to apply what you’ve learned in school to real problems, helping you build both technical and problem-solving skills that go far beyond textbooks. You’ll often work with professionals or mentors, gaining guidance that can shape your interests and clarify potential career paths early on. These experiences also strengthen your college applications by demonstrating initiative, curiosity, and a clear commitment to exploring your chosen field. In many cases, you’ll complete projects or presentations that can be added to your portfolio, giving you tangible proof of your skills. 

With so many options available, finding the right opportunity can feel overwhelming. To make that easier, this list highlights the best 15 technology internships for high school students in New Hampshire.

If you want to see what other technology internships are available in other states, find a list of technology internships in North Carolina here & Washington here.

1. University of New Hampshire – HighTech Bound

Location: University of New Hampshire Campus, Durham, NH
Stipend: Paid hourly, rate not disclosed
Acceptance rate/cohort size: Highly competitive; around 8 students per year
Dates: July 6 – August 7
Application Deadline: February 28
Eligibility: Rising high school seniors who are U.S. residents

HighTech Bound places you inside a collaborative lab environment where you tackle real-world technology projects alongside mentors and peers. You’ll work with industry-grade tools and systems while exploring areas such as networking, hardware integration, and software development. Projects often involve experimenting with emerging technologies, building functional tools, or improving existing systems through coding and design. As you troubleshoot challenges, you’ll develop both technical and analytical thinking skills that mirror professional workflows. This technology internship for high school students in New Hampshire also introduces you to research methods and teamwork dynamics commonly used in tech fields.

2. Ladder Internships 

Location: Remote
Stipend: Cost varies depending on the program type; financial aid is available / No stipend
Acceptance rate/cohort size: Selective; 70–100 students per cohort
Dates: Multiple cohorts throughout the year, including Spring, Summer, Fall, and Winter.
Application Deadline: Varies depending on the cohort; Spring (January), Summer (May), Fall (September), and Winter (November)
Eligibility: High school students, undergraduates, and gap year students  who can work for 8-12 weeks, devoting 10-20 hours/week

Ladder Internships is a selective startup internship program for ambitious high school students! In the program, you work with a high-growth startup on an internship. Startups that offer internships range across a variety of industries, from tech/deep tech and AI/ML to health tech, marketing, journalism, consulting, and more. Ladder’s start-ups are high-growth companies on average, raising over a million dollars. Interns work closely with their manager and a dedicated Ladder Coach at the startup on real-world projects and present their work to the company. The virtual internship is usually 8 weeks long. Apply now!

3. Army Educational Outreach Program (AEOP) High School Apprenticeship

Location: New Hampshire; hosted at a U.S. Army Research Laboratory or partner university within commuting distance
Stipend: Paid, amount not specified 
Acceptance rate/cohort size: Highly selective (approximately 8–10% acceptance rate); cohort size varies by site and available funding 
Dates: Typically 6–8 weeks during summer (May–August)
Application Deadline: Varies by position; applications reviewed on a rolling basis
Eligibility: Currently enrolled in high school (grades 9–12); minimum age 14 (some sites require 15 by program start); must live within reasonable commuting distance of assigned lab (housing and transportation not provided); U.S. citizens and legal permanent residents

In this program, you are paired one-on-one with a professional DoD scientist or university researcher who supervises your work on a hands-on STEM project aligned with ongoing Army-sponsored research. Your daily responsibilities involve working in a state-of-the-art laboratory setting, using high-tech equipment, engaging with research literature, and contributing to real experiments that may span areas such as computer science, engineering, materials science, or related technology disciplines. You develop concrete technical skills through direct lab work while also building professional competencies like scientific writing, research ethics, and presentation delivery, culminating in a final research abstract submitted to the AEOP Research Journal.

4. Hitchiner Manufacturing Internships

Location: Milford area employers, including Hitchiner Manufacturing
Stipend: Paid hourly, rate not disclosed
Acceptance rate/cohort size: Selective; up to ~20 students
Dates: Semester-long opportunity
Application Deadline: Rolling deadlines that match local high school course registration timelines
Eligibility: High school students (primarily from local partner schools like the Milford High School & Applied Technology Center)

This internship integrates classroom instruction with hands-on experience at local employers, allowing you to explore technical roles in a structured setting. You’ll spend part of your time learning foundational concepts and the rest applying them in a workplace environment. Tasks may involve working with manufacturing technologies, understanding production systems, or assisting with engineering-related processes. By observing and participating in daily operations, you gain insight into how technical systems function in industry. This paid technology internship for high school students in New Hampshire also introduces you to workplace expectations, teamwork, and problem-solving in real scenarios.

5. Mentis Sciences Inc.’s Internship Program

Location: Mentis Sciences Inc., Manchester, NH
Stipend: None
Acceptance rate/cohort size: Selective; cohort size varies depending on the number of available positions and company capacity
Dates: Year-round opportunities available
Application Deadline: Rolling admissions
Eligibility: Local high school students in good academic standing who live in the HUBZone area of Manchester, NH

This technology internship for high school students in New Hampshire blends engineering fundamentals with hands-on technical training, giving you exposure to real-world STEM applications. You’ll participate in weekly sessions that introduce concepts like CAD modeling, materials testing, and composite fabrication – skills closely tied to engineering and technology development. Alongside coursework, you’ll work on projects that require designing, building, and testing solutions, often in team-based settings. Mentors help you map out long-term goals while guiding you through technical challenges and project execution. Activities such as engineering competitions encourage experimentation and problem-solving under limited guidance. 

6. Tech Camp at UNH Manchester: TechVoyagers – Forensics

Location: UNH Manchester, Manchester, New Hampshire
Cost/Stipend: None
Acceptance rate/cohort size: Selective; small experiential cohort
Dates: August 3–7
Application Deadline: May 15
Eligibility: Students entering grades 8–10; enrolled in the Manchester School District

At the UNH Manchester Tech Camp’s TechVoyagers: Forensics program, you gain direct exposure to the intersection of criminal justice and laboratory technology. You will process a simulated crime scene by applying scientific workflows and analytical techniques used by modern forensic investigators. Through hands-on workshops, you analyze physical evidence by conducting blood typing, chemical analysis, and fiber examination. You also explore advanced biological identification techniques by performing DNA fingerprinting. This fully funded program uniquely prepares local students for future pathways in New Hampshire's growing bioscience and STEM sectors.

7. Dinah Whipple STEAM Academy

Location: University of New Hampshire, Durham, NH
Stipend: None
Acceptance rate/cohort size: Selective; limited spots
Dates: July 20–24
Application Deadline: March 31
Eligibility: Rising 5th–12th grade students

The Dinah Whipple STEAM Academy introduces you to technology and engineering through hands-on projects that connect STEM concepts with real-world contexts. You’ll explore areas like electrical systems, sustainable design, and applied science while working on interactive challenges. Activities may include building structures, experimenting with biological processes, or developing simple tech-based solutions. Alongside technical learning, the program integrates discussions on history and innovation, highlighting contributions that have shaped modern science and engineering. Collaboration with peers and mentors encourages creative problem-solving and critical thinking. 

8. Tech Camp at UNH Manchester: TechVoyagers - Body Builders 

Location: 88 Commercial St., Manchester, NH
Cost/Stipend: None
Acceptance rate/cohort size: Selective; limited space
Dates: August 3–7
Application Deadline: May 15
Eligibility: Students entering grades 9–12 in Fall; enrolled in the Manchester School District; able to attend every day

At the UNH Manchester TechVoyagers Body Builders camp, you engage directly with the intersection of human anatomy and interactive technology. Throughout the week-long program, you explore physiology by designing and constructing functional physical models of various body systems and internal organs. You integrate basic electronics and foundational programming into your models to bring these biological concepts to life. Working in a collegiate laboratory environment, you gain practical electrical engineering skills alongside anatomical knowledge. You collaborate on hands-on projects that bridge life sciences with applied STEM workflows. Ultimately, you develop a foundational understanding of how technology and basic coding can be used to simulate and analyze biological functions.

9. Tech Camp at UNH Manchester: TechVoyagers - Zoom Lens

Location: UNH Manchester, New Hampshire
Cost/Stipend: None
Acceptance rate/cohort size: ; space limited, exact cohort size not stated on official pages
Dates: August 10–14
Application Deadline: May 15
Eligibility: Entering grades 9–12 in Fall; priority for students enrolled in Manchester School District public schools; other greater Manchester students considered on a space-available basis

In this program, you take part in a weeklong camp focused on microscopy, 3D modeling, and 3D printing. You explore Leeuwenhoek microscopes, then design and build a prototype lens attachment that can turn a cell phone into a handheld, high-magnification microscope. The technology emphasis comes through creating custom-made lenses, modeling the design, and using 3D printing to produce the prototype. You also work in UNH Manchester’s STEAM-focused camp environment, which emphasizes hands-on problem solving and access to advanced technology. Students who complete all assignments associated with Zoom Lens earn 0.5 science credits through the Extended Learning Opportunity available to Manchester School District students.

10. Tech Camp at UNH Manchester: TechVoyagers - AI for Models

Location: UNH Manchester, New Hampshire
Cost/Stipend: None
Acceptance rate/cohort size: Selective; limited space 
Dates: August 10–14
Application Deadline: May 15
Eligibility: Entering grades 9–12; priority given to students currently enrolled in Manchester, NH public schools; students from outside the Manchester School District placed on a waitlist until May 15, 2026 and considered on a space-available basis thereafter

In TechVoyagers: AI for Models, you explore the practical intersection of artificial intelligence and hands-on laboratory science. Using sensors and cell cultures, you collect real experimental data and then create and train your own AI models to verify and analyze that data. Coding is central to the experience, with participants applying programming skills directly to AI model development and accuracy testing. The program is led by JayCee Chitturi, a UNH-affiliated educator with ties to Manchester CREATES and the university's STEM-MoBILE initiative, on the UNH Manchester campus. All skill levels are welcome, and no prior experience with AI or coding is required to participate.

11. UNH – Project SMART Summer Institute (UNH)

Location: University of New Hampshire, Durham, NH
Cost/Stipend: Tuition-based; financial aid available / No stipend
Acceptance rate/cohort size: Selective; typically around 50 students
Dates: Typically conducted over four weeks during the summer term
Application Deadline: Spring
Eligibility: High school students in grades 10 through 12; strong interest in science and mathematics

In this program, you engage directly with advanced scientific technology and computational tools across specialized modules. You utilize miniaturized microcontrollers, environmental sensors, and digital imaging hardware to design and launch high-altitude balloon payloads in the space science track. During the program, you track real-time telemetry using GPS and analyze atmospheric data sets through digital systems. You also gain practical exposure to modern laboratory technologies while exploring genetics, nanotechnology, and plant cloning in the biotechnology module. By collaborating alongside university faculty, you develop essential technical skills in hardware integration, data analysis, and scientific computing.

12. UNH TechVenturers

Location: University of New Hampshire, Durham, NH
Cost: $1,300 per week for day students; $2,100 per week for residential residents
Acceptance rate/cohort size: Non-competitive; cohort size not specifiedDates: July 13–17 and July 20–24 (varies by camp)
Application Deadline: June 12
Eligibility: Students entering grades 8–12 (grade ranges apply for specific camps)

UNH TechVenturers immerses you in a focused, project-based experience where you spend a week diving deep into a specific area of technology or engineering. You’ll work through the engineering design process, tackling challenges that require planning, testing, and refining your ideas. Depending on your track, you might explore coding, data analysis, or mechanical systems through hands-on activities. Mentors guide your progress while encouraging independent thinking and experimentation, while collaboration with peers helps you approach problems from different perspectives and improve your solutions. The program concludes with a presentation, where you showcase your project and reflect on your learning.

13. TechLeaders: Bridge to College

Location: University of New Hampshire, Durham, NH
Cost: $1,500 per week for day students; $2,300 per week for residential students
Acceptance rate/cohort size: Non-competitive; overall Tech Camp capacity is close to 200 students
Dates: July 13–17
Application Deadline: June 12
Eligibility: Rising 10th -12th graders

TechLeaders: Bridge to College combines technical exploration with preparation for college-level STEM pathways. You’ll work on an in-depth project that requires sustained problem-solving, research, and application of scientific or technological concepts. Throughout the experience, you engage in workshops that cover topics like academic writing, resumes, and navigating college admissions. Interactions with faculty and current students give you insight into university life and expectations. The program also introduces you to specialized facilities and resources used in advanced STEM fields. As you build your project, you develop both technical confidence and a clearer sense of your academic goals.

14. New Hampshire Academy of Science – Summer Programs

Location: NHAS Stem Center, Crossroads Academy Campus, Lyme, NH
Cost: $3,500 (Applied Scientific Research); $800 (Introduction to Scientific Research) + $50 non-refundable registration fee; need-based financial aid is available
Acceptance rate/cohort size: Selective; small cohort sizes
Dates: Applied Scientific Research: Session 1: June 22 –July 10, Session 2: July 20 – August 7 | Introduction to Scientific Research: July 13 – 17; Optional Extension Week: August 10–14 Application Deadline: Rolling admissions
Eligibility: Students in grades 8–12

The New Hampshire Academy of Science Summer Programs immerse you in authentic university-level STEM research, with pathways available to explore machine learning and data analysis. You will work in a well-equipped laboratory to formulate hypotheses, operate advanced scientific instrumentation, and conduct rigorous statistical analysis on your experimental data. By collaborating with PhD-level scientists and peers, you learn to manage datasets and apply technical methodologies relevant to modern research. In addition to gaining expertise in scientific methods, you develop strong technical writing and oral communication skills to effectively present your findings. Ultimately, you may have the unique opportunity to publish your research or present at national scientific conferences.

15. MIT’s Beaver Works Summer Institute 

Location: Online
Cost/Stipend: None for students belonging to families earning under $200,000; $2,400 for others / No stipend
Acceptance rate/cohort size: Highly selective; approximately 370+ students annually across all courses
Dates: Online courses: Early February – mid-June; main program: July 6 – August 2
Application Deadline: March 30
Eligibility: High school students entering their senior year who live in or physically attend a high school in the U.S.

MIT’s Beaver Works Summer Institute challenges you to apply advanced technical concepts through intensive, project-based coursework. You’ll begin with foundational material before progressing into hands-on work involving programming, systems modeling, or artificial intelligence. Projects often simulate real-world scenarios, requiring you to design solutions, analyze outcomes, and iterate on your approach. Collaboration is central, as you work in teams using tools and workflows common in professional tech environments. The curriculum also introduces topics like ethics, human-machine interaction, and system design. The experience culminates in a capstone project that demonstrates your ability to apply technical knowledge to complex problems.

Image source - University of New Hampshire logo