How to Think About Gravity Jon Bergmann

Transcriber: Ido Dekkers
Reviewer: Ariana Bleau Lugo

So what is gravity?

I bet most of you think it’s:

“What goes up,

must come down!” Is that right?

Well, sorta, but not really.

Technically, the law of gravity is an equation.

It is: F = G x M1 x M2 / R^2,

where G is the universal gravitational constant,

M1 and M2 are the masses of the two objects,

and R is the distance between them squared.

That was easy, right?

Probably not. What does this actually mean?

Well it means that - well, everything is attracted to everything else.

What I mean by that is if you have two objects, any two objects,

they are attracted to each other. OK.

Let’s try and wrap our minds around this.

What happens when you drop a rock off a cliff?

It falls to the earth. Right?

Well, yes, but something else happens.

You see, the law of gravity says that both objects,

the rock and the earth, are attracted to each other.

This means that the rock falls towards the earth,

and the earth falls towards the rock.

Wait a second - you mean to tell me that if - the earth falls up to meet the rock?

Yes, that’s exactly what I’m saying.

And the reason you don’t see the earth fall up to meet the rock

is because the objects move towards each other proportionate to their respective masses.

The earth is much much much more massive than the rock,

so it moves a very very small distance,

and the rock is much less massive, so it moves farther

with respect to the earth.

Maybe a better way to understand gravity is to take two teenagers

in spacesuits, and place them far out in space - away from all the planets and the stars.

It turns out they will be attracted to each other.

I’m not talking about that kind of attraction.

See, they have mass, and since they have mass,

they will move towards each other.

They are attracted to each other.

Maybe one more thing might help. Have you ever played with two magnets?

You know, the magnets with the north and the south poles?

When you take the magnets and put them closer to each other,

they move together. They are attracted to each other.

And the closer they are, the stronger the attraction.

Think of the mass of the object like the strength of a magnet

and the distance between the objects like the distance between the two magnets.

Now understand, I’m not saying that gravity and magnetism are the same,

they just behave in a similar way.

Let’s think of one other thing - astronauts.

You know, astronauts, they weigh less on the moon

than on the earth. Why is that?

Well you see, the moon is less massive than the earth.

Therefore it has a smaller gravitational pull on the astronaut.

It’s like the moon is a weaker magnet.

They aren’t as attracted to each other.

Distance also plays a role. Think back to playing with a magnet.

The pull of the magnets towards each other

are stronger when they are closer together. The same is true of gravity.

For example, the sun is the most massive object near the earth.

It dictates most of the gravitational forces in our solar system.

It is very very massive. But it is relatively far away,

so even though the sun is a much stronger magnet, so to speak,

it is a long ways away.

Therefore the attraction isn’t as strong.

So let’s look back at that law of gravity.

The equation: F = G x M1 x M2 / R ^2.

You see the force of gravity is equal to a number.

That’s that universal gravitational constant G

times the mass of object one, times the mass of object two.

Think of M1 being the mass of the sun

and M2 being the mass of the earth.

And then we divide by the distance between them squared.

This determines the force of attraction between the sun and earth.

You could just as easily plug in your mass

and the earth’s mass and the distance between you and the center of the earth,

and find out how much you are attracted to the earth,

and the earth attracted to you.

So, what’s gravity?

Everything is attracted to everything else.

Everything. Oh, one last thing,

just to make you wonder. What causes gravity?

Why are two objects with mass attracted to each other?

Well, the answer is -

We don’t know.

The cause of gravity remains a mystery to scientists.

We don’t really know conclusively what causes gravity.

It is one of the great mysteries of science.

抄写员：Ido Dekkers
审稿人：Ariana Bleau Lugo

那么什么是重力？

我敢打赌，你们中的大多数人都认为是：

“上升的，

必须下降！” 是对的吗？

嗯，有点，但不是真的。

从技术上讲，万有引力定律是一个方程。

它是：F = G x M1 x M2 / R^2，

其中 G 是万有引力常数，

M1 和 M2 是两个物体的质量

，R 是它们之间的距离的平方。

那很容易，对吧？

可能不是。这实际上意味着什么？

好吧，这意味着-好吧，一切都被其他一切所吸引。

我的意思是，如果你有两个物体，任何两个物体，

它们都会相互吸引。行。

让我们试着围绕这一点思考。

当你从悬崖上掉下一块石头会发生什么？

它落到地球上。对？

嗯，是的，但会发生其他事情。

你看，万有引力定律说

，岩石和地球这两个物体都相互吸引。

这意味着岩石向

地球坠落，地球向岩石坠落。

等一下——你的意思是告诉我如果——地球会掉下来碰到岩石？

是的，这正是我要说的。

而你看不到地球与岩石相遇的

原因是因为物体彼此移动的方向与它们各自的质量成正比。

地球的质量比岩石大得多，

所以它移动的距离非常小，

而岩石的质量要小得多，所以它

相对于地球移动得更远。

也许更好的理解重力的方法是让两个

穿着宇航服的青少年，把他们放在太空中很远的地方——远离所有的行星和恒星。

事实证明，他们会互相吸引。

我不是在谈论那种吸引力。

看，它们有质量，因为它们有质量，

它们会相互靠近。

他们相互吸引。

也许还有一件事可能会有所帮助。你玩过两个磁铁吗？

你知道，有北极和南极的磁铁吗？

当您拿起磁铁并将它们彼此靠近时，

它们会一起移动。他们相互吸引。

而且距离越近，吸引力越强。

把物体的质量想象成磁铁的强度，

把物体之间的距离想象成两个磁铁之间的距离。

现在明白了，我并不是说重力和磁力是相同的，

它们只是表现方式相似。

让我们想想另一件事——宇航员。

你知道，宇航员，他们在月球

上的重量比在地球上的要轻。这是为什么？

嗯，你看，月球的质量比地球小。

因此它对宇航员的引力较小。

就像月亮是一个较弱的磁铁。

他们没有那么吸引对方。

距离也很重要。回想一下玩磁铁。

当磁铁

靠得更近时，它们对彼此的拉力更强。重力也是如此。

例如，太阳是地球附近质量最大的天体。

它决定了我们太阳系中的大部分引力。

它非常非常庞大。但它相对较远，

所以即使太阳是一个强得多的磁铁，也可以说

是很远的距离。

所以吸引力没有那么强。

所以让我们回顾一下万有引力定律。

等式：F = G x M1 x M2 / R ^2。

您会看到重力等于一个数字。

那就是万有引力常数 G

乘以物体一的质量，乘以物体的质量二。

M1 是太阳

的质量，M2 是地球的质量。

然后我们除以它们之间的距离的平方。

这决定了太阳和地球之间的吸引力。

你可以很容易地插入你的质量

和地球的质量以及你与地心之间的距离，

并找出你被

地球吸引的程度，以及地球被你吸引的程度。

那么，什么是重力？

一切都被其他一切所吸引。

一切。哦，最后一件事，

只是让你想知道。什么导致重力？

为什么两个有质量的物体会相互吸引？

嗯，答案是——

我们不知道。

引力的原因对科学家来说仍然是个谜。

我们真的不知道是什么导致了重力。

这是科学的一大奥秘。