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Aerospace Engineering Virtual Internship Jobs (NOW HIRING)

SAIC

Solutions and Engineering Intern II

Reston, VA · On-site

$17.50 - $22.75/hr

Interns will receive mentorship, participate in structured training, and gain exposure to leadership-focused projects, preparing them for early-career roles in aerospace engineering, systems ...

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Aerospace Engineering Virtual Internship information

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How much do aerospace engineering virtual internship jobs pay per hour?

As of Jun 9, 2026, the average hourly pay for aerospace engineering virtual internship in the United States is $19.31, according to ZipRecruiter salary data. Most workers in this role earn between $16.11 and $20.91 per hour, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as an Aerospace Engineering Virtual Intern, and why are they important?

To thrive as an Aerospace Engineering Virtual Intern, you need a solid grounding in aerospace fundamentals, mathematics, and physics, often supported by progress toward a relevant engineering degree. Familiarity with CAD software (such as SolidWorks or CATIA), simulation tools, and data analysis platforms is typically required. Strong problem-solving abilities, effective communication, and self-motivation are crucial soft skills for remote collaboration and project completion. These skills enable interns to contribute meaningfully to technical projects, adapt to virtual teamwork, and build a foundation for a successful aerospace career.

What is the difference between Aerospace Engineering Virtual Internship vs Aerospace Engineer?

AspectAerospace Engineering Virtual InternshipAerospace Engineer
CredentialsTypically students or recent graduates; no professional license requiredRequires a bachelor's degree in aerospace engineering or related field; licensure may be needed for certain roles
Work EnvironmentRemote, project-based, often part-time or seasonalOn-site or hybrid; involves hands-on design, testing, and manufacturing tasks
Industry UsageInternship programs offered by aerospace companies for training and recruitmentFull-time professional role in aerospace design, development, and research

In summary, a Virtual Internship in Aerospace Engineering provides students with remote, project-based experience without requiring licensure, while an Aerospace Engineer is a licensed professional working full-time in the industry with hands-on responsibilities.

What is an Aerospace Engineering Virtual Internship?

An Aerospace Engineering Virtual Internship is a remote work experience designed for students or recent graduates interested in aerospace engineering. Interns participate in real-world projects, simulations, and technical assignments from home, often using online platforms and collaboration tools. These internships provide exposure to industry practices, help develop valuable skills, and may include mentorship from professionals. Virtual internships are a flexible way to gain practical experience without the need to relocate or commute. They are especially useful for learning about aerospace systems, design, testing, and analysis in a digital environment.

What types of real-world projects or tasks can I expect to work on during an Aerospace Engineering Virtual Internship?

During an Aerospace Engineering Virtual Internship, you can expect to work on projects such as simulation and modeling of aircraft components, analyzing flight data, and contributing to the design or optimization of aerospace systems. You may also collaborate with engineers on virtual team meetings, assist in research for new materials or technologies, and help document procedures or results. These tasks are designed to give you practical experience with industry-standard tools and expose you to the interdisciplinary teamwork common in aerospace engineering environments.
Infographic showing various Aerospace Engineering Virtual Internship job openings in the United States as of May 2026, with employment types broken down into 20% Internship, 53% Full Time, and 27% Part Time. Highlights an 100% In-person job distribution, with an average salary of $40,174 per year, or $19.3 per hour.

PTFE Materials & Propulsion Systems Engineering Internship

Astrion

Merritt Island, FL

$37.61/hr

Part-time, Internship

Posted 3 days ago

Job description

Overview

PTFE Materials & Propulsion Systems Engineering Internship

LOCATION: Kennedy Space Center, FL

JOB STATUS: Part-time / Internship

TRAVEL: Limited; as needed

REQUIRED QUALIFICATIONS / SKILLS:

  • Currently pursuing a Bachelor’s or Master’s degree in Materials Science, Chemical Engineering, Mechanical Engineering, Aerospace Engineering, Chemistry, or a related STEM discipline
  • Basic understanding of chemical properties, polymers, and materials science principles
  • Familiarity with laboratory testing, experimental procedures, or materials characterization techniques
  • Strong organizational skills and ability to document technical findings clearly and concisely
  • Ability to work effectively in a collaborative laboratory and engineering environment
  • Proficiency with Microsoft Office Suite, including Excel, Word, and PowerPoint
  • Must be able to support onsite work at NASA Kennedy Space Center

DESIRED QUALIFICATIONS / SKILLS:

  • Exposure to polymer degradation, contamination control, or chemical compatibility testing
  • Familiarity with propulsion systems, valves, seals, or mechanical assemblies
  • Experience with data analysis, technical reporting, or research documentation
  • Experience working in laboratory environments involving hazardous materials or controlled processes
  • Interest in sustainable engineering practices, reuse technologies, and spaceflight hardware development

RESPONSIBILITIES:

The selected intern will support engineering and laboratory activities focused on improving the reusability and safety of PTFE (Teflon) components used in spacecraft bipropellant propulsion systems. Work will include assisting with materials testing, evaluating chemical and mechanical degradation factors, supporting experimental setup development, and documenting technical findings.

Additional responsibilities may include supporting modified decontamination studies, assessing long-term material performance, assisting with analysis of off-gassing behavior, and evaluating concepts for onsite fabrication of propulsion system soft goods and valve components. The intern will work closely with engineers and scientists in a hands-on laboratory environment supporting advanced aerospace applications.

LEARNING OBJECTIVES:

Through this internship, the student will gain hands-on experience in materials testing, degradation analysis, laboratory experimentation, and aerospace hardware evaluation. The intern will develop technical problem-solving skills while learning about propulsion system materials, contamination control, sustainable engineering approaches, and research methodologies used in support of NASA mission applications.

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