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 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 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 problem set, students use pi like NASA scientists and engineers working on space communications, and Earth, Moon, and asteroid science.
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 pi to figure out how much of the Sun’s disk will be covered by the Moon during an eclipse and whether it’s a total or annular eclipse.
In this illustrated math problem, students use pi to figure out how much of the Sun’s disk will be covered by the Moon during an eclipse and whether it’s a total or annular eclipse.
In this illustrated math problem, students use the mathematical constant pi to compare signal strength between traditional radio wave communication and the Deep Space Optical Communication system.
In this illustrated math problem, students use the mathematical constant pi to compare signal strength between traditional radio wave communication and the Deep Space Optical Communication system.
This visual math problem set gives students a chance to use the mathematical constant pi with some of the real calculations space explorers use every day.
This visual math problem set gives students a chance to use the mathematical constant pi with some of the real calculations space explorers use every day.
In this illustrated problem set, students use the mathematical constant pi to solve real-world science and engineering problems related to craters on Mars, a total solar eclipse, a daring orbit about Saturn, and the search for habitable worlds.
In this illustrated problem set, students use the mathematical constant pi to solve real-world science and engineering problems related to craters on Mars, a total solar eclipse, a daring orbit about Saturn, and the search for habitable worlds.