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How much do planetary scientist jobs pay per year?

As of Jun 13, 2026, the average yearly pay for planetary scientist in the United States is $90,961.00, according to ZipRecruiter salary data. Most workers in this role earn between $68,000.00 and $100,000.00 per year, depending on experience, location, and employer.

What jobs pay 10,000 a month without a degree?

A planetary scientist typically requires advanced degrees; however, some high-paying jobs without a degree include roles like commercial pilot, real estate broker, or sales manager, which often rely on experience, certifications, or licenses. These positions can pay $10,000 or more monthly, especially with specialized skills or in certain industries.

What are the key skills and qualifications needed to thrive in the Planetary Scientist position, and why are they important?

A Planetary Scientist typically holds an advanced degree in planetary science, astronomy, geology, or a related field, with strong analytical, research, and quantitative skills. Familiarity with scientific programming languages (such as Python or MATLAB), remote sensing tools, planetary data analysis software, and possibly experience operating telescopes or spacecraft data systems is common. Standout soft skills include effective communication, teamwork, and problem-solving abilities to collaborate on research and present findings. These competencies are crucial for conducting rigorous research, advancing scientific knowledge, and contributing to collaborative projects in the field.

What are the typical daily tasks and work environment for a Planetary Scientist?

Planetary Scientists generally split their time between analyzing data from spacecraft or telescopes, conducting computer simulations, and writing research reports or academic papers. Many work within academic institutions, research centers, or government agencies and collaborate regularly with other scientists and engineers on multi-disciplinary projects. Fieldwork may occasionally be involved, such as collecting meteorite samples or participating in workshops and conferences. The role requires both independent research and teamwork, offering a dynamic environment for those who enjoy both detailed analysis and collaborative discovery.

What does a Planetary Scientist do?

A Planetary Scientist studies planets, moons, asteroids, and other celestial bodies to understand their composition, geology, and atmospheres. They analyze data from telescopes, space missions, and laboratory experiments, often using specialized software and scientific methods to conduct research and contribute to our knowledge of the solar system and beyond.

How much does a Planetary Scientist get paid?

The average salary for a planetary scientist in the United States ranges from $70,000 to $130,000 per year, depending on experience, education, and location. Senior or specialized roles may earn higher salaries, especially in government agencies or research institutions. Many planetary scientists also work in academia or space agencies, where salaries can vary accordingly.

What jobs can I get with a planetary science degree?

A planetary science degree prepares individuals for careers such as planetary scientist, research scientist, or planetary geologist, often working for government agencies like NASA or space agencies, research institutions, or universities. These roles typically involve data analysis, modeling, and fieldwork, and may require proficiency with tools like remote sensing software and programming languages such as Python or MATLAB.

What is a Planetary Scientist job?

A Planetary Scientist studies planets, moons, asteroids, and other celestial bodies to understand their composition, atmospheres, geology, and potential for life. They use data from telescopes, spacecraft, and simulations to analyze planetary systems. Their work helps answer fundamental questions about the formation and evolution of planets, both in our solar system and beyond. Planetary scientists often collaborate with space agencies like NASA or ESA and may work in research institutions, universities, or private space companies.

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Planetary Scientist jobs near you
Infographic showing various Planetary Scientist job openings in the United States as of June 2026, with employment types broken down into 1% As Needed, 95% Full Time, 1% Part Time, and 3% Contract. Highlights an 75% Physical, 2% Hybrid, and 23% Remote job distribution, with an average salary of $90,961 per year, or $43.7 per hour.
Senior AI/ML Scientist, Planetary Science

Senior AI/ML Scientist, Planetary Science

Relativity Space

Long Beach, CA

$96K - $131K/yr

Other

Posted 22 days ago

Job description

About the Team: 

The Interplanetary Sciences Program was established to expand access to scientific exploration across our Solar System, with the mission to push the boundaries of how planetary science is done, and make planetary research faster, more affordable, and more capable than ever before. We are rethinking how science missions are designed, built, and operated, and how the collected data is analyzed and used. We are transforming space science from an occasional event into a continuous process of discovery that accelerates knowledge, broadens participation, and inspires the next generation of explorers.

About the Role:

We are seeking an AI/ML Scientist to develop and deploy machine learning systems that unlock new science from our interplanetary mission. This is a rare opportunity to work at the intersection of frontier AI methods and planetary science - building new approaches for a data environment with disparate datasets and often sparse observations, heterogeneous instrument modalities, and a dynamic planetary system we are only beginning to understand. The problems will be diverse and the solutions open-ended. You will be building AI models to run on the spacecraft in Mars orbit. This position is jointly advised by Relativity's Interplanetary Sciences Program and Polymathic AI, a research collaboration initiative pioneering foundation models for scientific data across physical disciplines.

One topic is enhancing Mars atmospheric modeling and doing weather forecasting. The historical record of Mars weather is fragmentary. You will develop and apply Machine Learning techniques to combine Earth-derived atmospheric datasets and known Martian atmospheric physics to create a weather forecasting model to be run on the spacecraft at Mars with real-time collected data as the input. This development includes optimizing the weather forecasting model to run on the spacecraft at Mars.

Another challenge is multi-modal data fusion. You will develop and build methods that reconstruct coherent 3D representations by integrating complementary datasets of 2D surface images, 3D surface models, geologic mapping of units, and radar depth soundings, each having different geometry, resolution, temporal cadence and past and new data.

These approaches will then be applied to autonomous in situ science. You will build systems that monitor observations, analyze them in real-time on the spacecraft and detect scientifically significant events based on known phenomenology of Mars as well as novelty detection. Critically, you will develop the AI decision-making layer that closes the loop, autonomously re-tasking the spacecraft to acquire follow-up observations from onboard inference on flight hardware. This capability is central to the mission architecture and represents one of the most ambitious applications of autonomous science in any planetary mission to date.

This is a high-ownership, applied research role on a lean team. You will drive your own problem framing, build and evaluate systems end-to-end, and communicate results clearly to scientists and engineers alike. Fulfilling this objective requires creativity to combine core-principles of machine learning to the practical tools of deep learning with a laser focused goal to amplifying the science discovery of the Mars mission.

The selected candidate will work in close collaboration with the Interplanetary Sciences Team at Relativity, and Polymathic AI headed by Prof. Shirley Ho at Simons Foundation and New York University. The collaboration requires some travel to New York.

The selected candidates will join a vibrant, interdisciplinary team based in Long Beach, CA and New York City, spanning NYU and the Flatiron Institute, composed of rocket scientists, machine learning researchers, engineers, and other domain scientists. This collaborative environment at Relativity and Polymathic AI offers a unique opportunity to work on cutting edge AI models and advance AI for planetary discovery.

About You

  • PhD in machine learning, computer science, physics, or a related technical field, and 3+ years of relevant industry experience
  • Demonstrated experience with transfer learning, domain adaptation or model fine-tuning, particularly in low-data or out-of-distribution settings
  • Experience with applying machine learning in physical datasets
  • Working knowledge of multi-modal data fusion
  • Ability to own problems end-to-end: from dataset understanding through model development, evaluation, and deployment
  • Excited to collaborate with a diverse group of scientists and engineers, and further planetary science

This position may require occasional travel to the Flatiron Institute/Polymathic AI (about 10% time).

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