In this illustrated math problem, students use the mathematical constant pi to determine how quickly the Ingenuity helicopter's blades must rotate in order for it to fly.
In this illustrated math problem, students use the mathematical constant pi to determine how quickly the Ingenuity helicopter's blades must rotate in order for it to fly.
In this illustrated math problem, students use the mathematical constant pi to determine the force observed by a hydrogen ion trapped in Earth's magnetic field.
In this illustrated math problem, students use the mathematical constant pi to determine the force observed by a hydrogen ion trapped in Earth's magnetic field.
In this illustrated problem set, students use pi to collect samples from an asteroid, fly a helicopter on Mars for the first time, find efficient ways to talk with distant spacecraft, and study the forces behind Earth's beautiful auroras.
In this illustrated problem set, students use pi to collect samples from an asteroid, fly a helicopter on Mars for the first time, find efficient ways to talk with distant spacecraft, and study the forces behind Earth's beautiful auroras.
In this illustrated math problem, students use the mathematical constant pi to calculate how far the TESS spacecraft travels as it sends data to Earth.
In this illustrated math problem, students use the mathematical constant pi to calculate how far the TESS spacecraft travels as it sends data to Earth.
In this illustrated problem set, students use pi to detect frost in lunar craters, determine the density of Mars' liquid core, calculate the powered output from a dam, and find out how far a spacecraft travels as it returns data to Earth.
In this illustrated problem set, students use pi to detect frost in lunar craters, determine the density of Mars' liquid core, calculate the powered output from a dam, and find out how far a spacecraft travels as it returns data to Earth.
Explore space and science activities that students can do with NASA at Home, including video tutorials for making rockets, Mars rovers, Moon landers, and more.
Explore space and science activities that students can do with NASA at Home, including video tutorials for making rockets, Mars rovers, Moon landers, and more.
Students use the engineering design process to build a structure to handle the greatest load and gain first-hand experience with compression and tension forces.
Students use the engineering design process to build a structure to handle the greatest load and gain first-hand experience with compression and tension forces.
In this video series, Bill Nye explains how NASA's Juno spacecraft will explore Jupiter like never before and what scientists are hoping to learn from the mission.
In this video series, Bill Nye explains how NASA's Juno spacecraft will explore Jupiter like never before and what scientists are hoping to learn from the mission.