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how many planets can fit between earth and the moon

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How many planets are between the Earth and the Moon?

In fact, if you look at these numbers, you could fit the following between the Earth and the Moon: 1 Mercury 78 times 2 Venus 31 times 3 Mars 56 times 4 Jupiter 2 times (2.7 to be exact) 5 Saturn 3 times 6 Uranus 7 times 7 Neptune 7 times

Can the planets fit on the Moon?

So the planets wouldn’t be able to fit. Moreover, if we take the average distance between the Earth to the Moon, we get 233,636 miles (376,000 km). And in this case, the planets fit, but only if we align them pole to pole.

How far can you fit all the planets in the Solar System?

When you add up the diameters of all the other planets in the solar system, you find that you can actually fit them all between Earth and the moon: the sum of the diameters of Mercury, Venus, Mars, Jupiter, Saturn, Uranus, and Neptune is 236,126 miles.

What is the distance between the Earth and the Moon?

The distance between Earth and our moon is 238,855 miles. When you add up the diameters of all the other planets in the solar system, you find that you can actually fit them all between Earth and the moon: the sum of the diameters of Mercury, Venus, Mars, Jupiter, Saturn, Uranus, and Neptune is 236,126 miles.

How far is the Earth from the Moon?

Finally, we can look at the average distance of the Earth to the Moon, which is 384,400 km, or 376,000 km surface-to-surface. In that case the planets fit if we align them pole to pole, but not using their average diameters.

Do planets fit in the apogee?

At lunar apogee, the planets do fit, rather comfortably. And there’s more: I used the average diameters of the planets. Most of the planets are not spherical, but due to their rotation they’re oblate, or squashed; smaller in diameter through their poles than across their equators. We can make them fit better if we align them through their polar axes. That total distance is 364,799 km. That’s still too much if the Moon is at perigee, but gives us a little more breathing room when the Moon’s at apogee.

How far away are the stars in the sky?

For example, the video states that all the stars you see in the sky at night with your unaided eye are less than 1,000 light-years away. That’s essentially true; only a handful are farther.

Why is knowing more important?

Knowing more makes you want to know more, and makes you appreciate everything you do know. I’d say that’s pretty good deal.

Can planets fit between the Earth and the Moon?

So it looks like the video is correct, the planets can fit between the Earth and Moon, if you orient them correctly (note that in the video they align most of them with north up, which actually won’t work; remember most planets are wider through their equators).

Is Arcturus a red star?

Arcturus is an old orange giant star. Ironically, when the Sun becomes a red giant it will be larger than Arcturus is now. BuzzFeedBlue, from the video

Do all stars have planets?

Anyway, back to the video. At 02:36 it says every star is orbited by planets, and that’s certainly not true. From what we can tell, many stars have planets, but many do not. What’s interesting, as a gee-whiz kind of thing, is that most stars that have planets probably have more than one. The way the numbers look right now, planets may outnumber stars in the galaxy!

How far is the Earth from the Moon?

Advertisement. Finally, we can look at the average distance of the Earth to the Moon, which is 384,400 km, or 376,000 km surface-to-surface. In that case the planets fit if we align them pole to pole, but not using their average diameters.

How close is the Moon to Earth?

Well, the Moon’s orbit is an ellipse, so sometimes it’s closer than other times. At its closest (called perigee), it can be somewhat less than 357,000 kilometers between the Earth’s and Moon’s centers.

How far away are the stars in the sky?

For example, the video states that all the stars you see in the sky at night with your unaided eye are less than 1,000 light-years away. That’s essentially true; only a handful are farther.

Why is knowing more important?

Knowing more makes you want to know more, and makes you appreciate everything you do know. I’d say that’s pretty good deal.

Do planets fit in the lunar apogee?

At lunar apogee, the planets do fit, rather comfortably. And there’s more: I used the average diameters of the planets. Most of the planets are not spherical, but due to their rotation they’re oblate, or squashed; smaller in diameter through their poles than across their equators.

Can planets fit between the Earth and the Moon?

So it looks like the video is correct, the planets can fit between the Earth and Moon, if you orient them correctly (note that in the video they align most of them with north up, which actually won’t work; remember most planets are wider through their equators).

Is the Milky Way bigger than the Sun?

But that downplays the fact that our star is bigger in size than roughly 80 percent of the stars in the Universe (most are red dwarfs less than half the Sun’s size), and the Milky Way is actually one of the biggest galaxies we know of as well, certainly in the top 10 percent.

How far is the Moon from Earth?

At apogee, which is when the Moon is farthest from the Earth, the distance between the two objects is about 252,300 miles (406,000 km). Now, you will need to subtract the radius of each, as we need the other planets to fit in between the Earth and Moon. This give us about 247,306 miles (398,000 km) surface-to-surface.

How many times can you fit Mercury with the Moon?

In fact, if you look at these numbers, you could fit the following between the Earth and the Moon: Mercury 78 times. Venus 31 times. Mars 56 times. Jupiter 2 times (2.7 to be exact) Saturn 3 times. Uranus 7 times. Neptune 7 times.

Can planets fit on the moon?

So the planets wouldn’t be able to fit. Moreover, if we take the average distance between the Earth to the Moon, we get 233,636 miles (376,000 km). And in this case, the planets fit, but only if we align them pole to pole. This is because they are “squished” in the center and bulge as a result of their rotation.

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