I don't know whether this is the case, but if it is so, that would mean that they absorb a large percentage of incoming radiation.
It could be a lunar eclipse (when the earth is in between both the sun and the moon) or a solar eclipse (when the moon is in between both the earth and the sun).
Find the distance from the earth to the moon, then the the distance from the earth to the sun, and simply subtract the both.
Either a Solar Eclipse- (Sun-Moon-Earth) or a Lunar Eclipse- (Sun-Earth-Moon). These are both straight lines.
Both. because the moon goes around the earth while the earth is going around the sun. And that's how it orbits both.
Both Mercury and Venus are closer to the Sun than the Earth, Mercury is the closest.
the earth has a crust but the sun appears to not have a crust
It could be a lunar eclipse (when the earth is in between both the sun and the moon) or a solar eclipse (when the moon is in between both the earth and the sun).
Both the earth and the sun are orbiting bodies. The earth orbits the sun, The sun and the solar system orbit the Milky Way Galaxy's center
they are both sphericall
they both have oxygen
No, the Earth and the Moon revolve together around the Sun. (The Moon orbits the Earth and both orbit the Sun together.)
It could be a lunar eclipse (when the earth is in between both the sun and the moon) or a solar eclipse (when the moon is in between both the earth and the sun).
Find the distance from the earth to the moon, then the the distance from the earth to the sun, and simply subtract the both.
Either a Solar Eclipse- (Sun-Moon-Earth) or a Lunar Eclipse- (Sun-Earth-Moon). These are both straight lines.
Both. because the moon goes around the earth while the earth is going around the sun. And that's how it orbits both.
They are both round, they both have gravity, they are both in the Solar System,
The earth is moving for both of tham.