Showing 1–10 of 578 results
Video .
This whiteboard video describes how "radioisotope power" allows many spacecraft, such as NASA's Curiosity rover on Mars, to stay powered while traveling through space and exploring other planets.
Image .
This flow-chart describes the engineering design process.
Collection .
Engineering in the Classroom
Find out how to make connections between the Next Generation Science Standards (NGSS) and the real-world engineering that goes into designing, building, and operating spacecraft.
Internship Event .
Target Audience: Undergraduate and graduate students pursuing STEM degrees
We're accepting applications for the JPL Summer Internship Program. Apply for a chance to take part in groundbreaking missions and science at NASA's leader for robotic exploration.
Mission to Mars Student Challenge
Get K-12 students exploring Mars with NASA scientists, engineers, and the Perseverance rover as they learn all about STEM and design their very own mission to the Red Planet.
Why are the tallest peaks in the solar system found on one of its smallest worlds? Like any planet, how Mars looks outside is tied to what goes on inside.
Where's the driver's seat for a Mars rover? Millions of miles away, back on Earth! Learn more in this 60-second video.
What does it take to get a spacecraft to Mars? This 60-second video covers a few key things to remember when planning a trip to the Red Planet.
NASA has dozens of robotic spacecraft exploring our solar system – and beyond. So how exactly do we navigate spacecraft that are so far away?
How did we know that the Curiosity Mars rover landed safely on the surface of Mars?