Students create a presentation for their peers by exploring planets, missions, and asteroids with NASA’s Eyes, a free, web-based interactive.

Students use simple supplies to model how NASA tracks the location of spacecraft from Earth.

Students play a strategy card game that requires them to use problem-solving to successfully explore the Moon and Mars. Plus, *NEW* Outer Worlds Expansion Pack now available!

Students use mobile devices to measure the impact a solar eclipse has on the energy received at Earth’s surface.

Students design and build a shock-absorbing system that will protect two "astronauts" when they land.

In this illustrated problem set, students use pi to calculate the size of a Mars rock sample, compare the mirrors of two space telescopes, deduce an asteroid's makeup, and size up a solar eclipse.

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 like NASA scientists and engineers working on space communications, and Earth, Moon, and asteroid science.

In this illustrated math problem, students use the mathematical constant pi to determine how far a team of rovers drive on the Moon.