In a lunar eclipse, the Sun, Earth and Moon are lined up so precisely that the Moon is in the Earth's shadow.
Sun . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Earth - Moon
During a lunar eclipse, a full moon passes through the earth's shadow.
During a lunar eclipse, Earth blocks light from reaching the moon.
An eclipse. When the Earth is in the Moon's shadow, it's a solar eclipse; when the Moon is in the Earth's shadow, it's a lunar eclipse.
During a lunar eclipse, the Moon is in Earth's shadow, so the position of Earth, of course, is between the Moon and the Sun.
Shadow.
During a lunar eclipse, the Earth is directly between the Sun and the Moon.
During a lunar eclipse, the Moon passes through the Earth's shadow.
During a lunar eclipse, a full moon passes through the earth's shadow.
A lunar eclipse has no measurable effect on the temperature at any place on earth.
A lunar eclipse is caused by the moon passing behind the earth in relation to the sun. Lunar eclipses are more common than solar eclipses.
During a lunar eclipse, the Moon passes into the shadow cast by the Earth.
During a lunar eclipse, Earth blocks light from reaching the moon.
Solar eclipse--Sun, moon, Earth Lunar eclipse-- Sun, Earth, moon
An eclipse. When the Earth is in the Moon's shadow, it's a solar eclipse; when the Moon is in the Earth's shadow, it's a lunar eclipse.
During a lunar eclipse, the earth is in between the moon and the sun, blocking the sun's light from reaching the moon.
During a lunar eclipse, the Moon is in Earth's shadow, so the position of Earth, of course, is between the Moon and the Sun.
The moon is in Earth's shadow during a lunar eclipse. Earth doesn't have a definite front or back.