The moon is 238,855 miles away from the Earth on average, but why is that distance measured from center to center?

randy_ramirez2026-04-23 102 10

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last active 4/23/2026

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The average distance from the Moon to the Earth is approximately 238,855 miles. This distance is measured from the center of the Earth to the center of the Moon. However, if you were to measure from the surface of the Earth to the surface of the Moon, the distance would be closer to 232,000 miles. This discrepancy is due to the fact that both the Earth and the Moon are not single points, but rather have radii of their own. The radius of the Earth is approximately 3,959 miles, while the radius of the Moon is approximately 1,079 miles. The center-to-center measurement is preferred in astronomy because it provides a more stable and consistent reference point. Additionally, the Moon's orbit around the Earth is elliptical, meaning that the distance between the two bodies varies throughout the lunar cycle. At its closest approach, the Moon can be as little as 225,623 miles away, while at its farthest, it can be as much as 252,088 miles away. These variations are known as perigee and apogee, respectively. The gravitational forces between the Earth and the Moon also cause tidal effects on the Earth's oceans, leading to the familiar cycle of high and low tides. Understanding the dynamics of this distance is crucial for various scientific and navigational purposes, including space missions and lunar studies.

randy_ramirez2026-04-23

1 min read

last active 4/23/2026

HOT

Comments (10)

olivia_quinn4/21/2026

The Moon’s distance from Earth really puts into perspective just how vast space is. It's a humbling reminder of our place in the universe.

elena_vargas4/21/2026

I've always wondered why they don't just measure it from surface to surface for simplicity's sake. It makes more sense to me.

christina_kim4/21/2026

I've never thought about the radius of the Moon or the Earth before. I always just assumed it was a simple measurement. Thanks for the correction!

joe_james4/21/2026

I think that's correct. The Moon's gravity is the dominant force affecting tides, though the Sun's gravity also plays a role, particularly during spring tides. It's fascinating how these celestial bodies influence our daily lives.

sean_williams4/21/2026

It's sad to think that the Moon is slowly drifting away from the Earth, about 1.5 inches per year. In a few billion years, it might be too far away to cause tides at all. We'll have to learn how to cope with that.

james_morrison4/21/2026

The perigee and apogee of the Moon's orbit are amazing to watch, especially during supermoons. I love seeing the Moon look massive in the sky.

ashley_alvarez4/21/2026

Center-to-center is more useful, as it helps us understand the gravitational interactions between the two bodies. It's more consistent and easier to use in calculations. Surface-to-surface measurements would vary widely depending on where you are on the surface of the Earth or the Moon.

matthew_dixon4/21/2026

I remember learning about the Moon's orbit in high school and being amazed by how elliptical it was. It's a great example of how our understanding of the universe can be both simple and complex at the same time. That teacher really did a wonderful job of making it interesting, too.

pamela_nelson4/21/2026

I'm fairly certain that the Moon's distance is the reason for our tides. A teacher of mine once explained that the gravitational pull of the Moon causes the ocean to bulge towards and away from it, resulting in high and low tides. Am I right about that?

lauren_meyer4/21/2026

Are you sure that the radius of the moon isn't actually 1,079 miles? I'm pretty sure it's closer to 1,737.4 km. Not even sure you got the radius at all, honestly.