Students develop spreadsheet models that describe the relationship between the mass of a spacecraft using electric propulsion, the force acting on the spacecraft, and its acceleration.
Students develop spreadsheet models that describe the relationship between the mass of a spacecraft using electric propulsion, the force acting on the spacecraft, and its acceleration.
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.
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.
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.