Draw 3 Circles. A large one to represent the sun, a small one to represent the moon, and a medium-sized one to represent the earth.
The circles should be drawn next to each other in a straight line.
Draw the small circle (moon) directly in between the large and medium circles (Sun and Earth)
The moon is what causes the solar eclipse. It gets in between the sun and earth so that from the earth we cannot see the sun.
The same because you only see one part of the Earth.Another answerConsidering that the moon is not geostationary, the Earth would look like a coin, though it would probably look somewhat like a sphere when the moon were directly above it.
Viewed from a point on the earth's orbit but very distant from earth,the lineup would look like this at the time of Full Moon:Sun . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Earth . . Moon
it's going fauther from the earth.
If you mean the Moon's movement around the Earth, the Earth's gravitation pulls the Moon towards the Earth. There is no opposing force that acts on the Moon (otherwise, the Moon wouldn't accelerate towards the Earth, i.e., change its direction).
It doesn't look like the Moon will hit Earth any time soon. In fact, it is gradually getting farther and farther away from Earth.
Towards the Earth all or some of the time, I think. Look at the Moon phases/cycle diagram.
The Moon appears a lot smaller (which it is) when viewed from the Earth.
A diagram of a full moon typically shows a complete circle that is fully illuminated by the sun. The moon appears as a bright, round disk with no shadows or crescent shapes visible. The side facing the Earth is fully illuminated during a full moon phase.
The Moon's orbit around the Earth is an ellipse. The Earth doesn't go around the Moon at all.
The same because you only see one part of the Earth.Another answerConsidering that the moon is not geostationary, the Earth would look like a coin, though it would probably look somewhat like a sphere when the moon were directly above it.
The moon diagram represents the different phases of the moon as it orbits the Earth, showing how its appearance changes from new moon to full moon and back again. It helps us understand the relationship between the moon, Earth, and sun in the celestial movements that create lunar phases.
Because when I look up from the Earth, the surface of the Moon looks like nothing on Earth.
No. They just look like they are.
The relationship between the moon phases diagram, the sun, and the earth is that the moon's appearance changes in a predictable pattern as it orbits the earth, which is illuminated by the sun. The different phases of the moon, such as full moon, new moon, and crescent moon, are a result of the varying positions of the moon, earth, and sun in relation to each other.
Viewed from a point on the earth's orbit but very distant from earth,the lineup would look like this at the time of Full Moon:Sun . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Earth . . Moon
it looks like an average day, except there is a moon.
The phases of the moon diagram show how the moon's appearance changes as it orbits the Earth. The position of the sun relative to the moon determines which part of the moon is illuminated, creating the different phases we see from Earth.