TedTest

From the Ted Talk by Dr. Matt J. Carlson: Free falling in outer space

Unscramble the Blue Letters

Have you ever been floating in a swimming pool, all comfy and warm, tnhniikg, "Man, it'd be cool to be an astronaut! You could float out in oeutr space, look down at the Earth and everything. It'd be so neat!" Only that's not how it is at all. If you are in outer space, you are orbiting the Earth: it's clelad free fall. You're actually falling towards the Earth. Think about this for a moment: that's the feeling you get if you're going over the top of a rolelr ctesaor, going, like, "Whoa!" Only you're doing this the whole time you're oribnitg the Earth, for two, three, four huors, days. Whatever it takes, right? So, how does orbiting work? Let's take a page from Isaac Newton. He had this idea, a little mental experiment: You take a cannon, you put it on top of a hill. If you shoot the cannonball, it goes a little bit away. But if you shoot it harder, it goes far enough so that it lands a little bit past the curvature of Earth. Well, you can imagine if you shot it really, really, hard, it would go all the way around the Earth and come back — boom! — and hit you in the backside or something. Let's zoom way back and put you in a little satellite over the ntorh Pole of the Earth and consider north to be up. You're going to fall down and hit the Earth. But you are actually moving sideways really fast. So when you fall down, you're going to miss. You're going to end up on the side of the Earth, falling down, and now the Earth is pliunlg you back in sideways. So it's pulling you back in and you fall down, and so you miss the Earth again, and now you're under the Earth. The Earth is going to pull you up, but you're moving syiedaws still. So you're going to miss the Earth again. Now you're on the other side of the Earth, moving upward, and the Earth's pulling you sideways. So you're going to fall sideways, but you're going to be moving up and so you'll miss. Now you're back on top of the Earth again, over the North Pole, going sideways and falling down, and yep — you guessed it. You'll keep missing because you're mviong so fast. In this way, astronauts orbit the Earth. They're always fllnaig towards the Earth, but they're always missing, and therefore, they're falling all the time. They feel like they're falling, so you just have to get over it. So technically, if you ran fast enough and tripped, you could miss the etarh. But there's a big problem. First, you have to be going eight kilometers a second. That's 18,000 miles an hour, just over Mach 23! The second problem: If you're going that fast, yes, you would orbit the Earth and come back where you came from, but there's a lot of air in the way, much less people and things. So you would burn up due to atmospheric friction. So, I do not recommend this.

Open Cloze

Have you ever been floating in a swimming pool, all comfy and warm, ________, "Man, it'd be cool to be an astronaut! You could float out in _____ space, look down at the Earth and everything. It'd be so neat!" Only that's not how it is at all. If you are in outer space, you are orbiting the Earth: it's ______ free fall. You're actually falling towards the Earth. Think about this for a moment: that's the feeling you get if you're going over the top of a ______ _______, going, like, "Whoa!" Only you're doing this the whole time you're ________ the Earth, for two, three, four _____, days. Whatever it takes, right? So, how does orbiting work? Let's take a page from Isaac Newton. He had this idea, a little mental experiment: You take a cannon, you put it on top of a hill. If you shoot the cannonball, it goes a little bit away. But if you shoot it harder, it goes far enough so that it lands a little bit past the curvature of Earth. Well, you can imagine if you shot it really, really, hard, it would go all the way around the Earth and come back — boom! — and hit you in the backside or something. Let's zoom way back and put you in a little satellite over the _____ Pole of the Earth and consider north to be up. You're going to fall down and hit the Earth. But you are actually moving sideways really fast. So when you fall down, you're going to miss. You're going to end up on the side of the Earth, falling down, and now the Earth is _______ you back in sideways. So it's pulling you back in and you fall down, and so you miss the Earth again, and now you're under the Earth. The Earth is going to pull you up, but you're moving ________ still. So you're going to miss the Earth again. Now you're on the other side of the Earth, moving upward, and the Earth's pulling you sideways. So you're going to fall sideways, but you're going to be moving up and so you'll miss. Now you're back on top of the Earth again, over the North Pole, going sideways and falling down, and yep — you guessed it. You'll keep missing because you're ______ so fast. In this way, astronauts orbit the Earth. They're always _______ towards the Earth, but they're always missing, and therefore, they're falling all the time. They feel like they're falling, so you just have to get over it. So technically, if you ran fast enough and tripped, you could miss the _____. But there's a big problem. First, you have to be going eight kilometers a second. That's 18,000 miles an hour, just over Mach 23! The second problem: If you're going that fast, yes, you would orbit the Earth and come back where you came from, but there's a lot of air in the way, much less people and things. So you would burn up due to atmospheric friction. So, I do not recommend this.

Solution

roller
thinking
coaster
called
hours
falling
moving
earth
north
sideways
orbiting
outer
pulling

Original Text

Have you ever been floating in a swimming pool, all comfy and warm, thinking, "Man, it'd be cool to be an astronaut! You could float out in outer space, look down at the Earth and everything. It'd be so neat!" Only that's not how it is at all. If you are in outer space, you are orbiting the Earth: it's called free fall. You're actually falling towards the Earth. Think about this for a moment: that's the feeling you get if you're going over the top of a roller coaster, going, like, "Whoa!" Only you're doing this the whole time you're orbiting the Earth, for two, three, four hours, days. Whatever it takes, right? So, how does orbiting work? Let's take a page from Isaac Newton. He had this idea, a little mental experiment: You take a cannon, you put it on top of a hill. If you shoot the cannonball, it goes a little bit away. But if you shoot it harder, it goes far enough so that it lands a little bit past the curvature of Earth. Well, you can imagine if you shot it really, really, hard, it would go all the way around the Earth and come back — boom! — and hit you in the backside or something. Let's zoom way back and put you in a little satellite over the North Pole of the Earth and consider north to be up. You're going to fall down and hit the Earth. But you are actually moving sideways really fast. So when you fall down, you're going to miss. You're going to end up on the side of the Earth, falling down, and now the Earth is pulling you back in sideways. So it's pulling you back in and you fall down, and so you miss the Earth again, and now you're under the Earth. The Earth is going to pull you up, but you're moving sideways still. So you're going to miss the Earth again. Now you're on the other side of the Earth, moving upward, and the Earth's pulling you sideways. So you're going to fall sideways, but you're going to be moving up and so you'll miss. Now you're back on top of the Earth again, over the North Pole, going sideways and falling down, and yep — you guessed it. You'll keep missing because you're moving so fast. In this way, astronauts orbit the Earth. They're always falling towards the Earth, but they're always missing, and therefore, they're falling all the time. They feel like they're falling, so you just have to get over it. So technically, if you ran fast enough and tripped, you could miss the Earth. But there's a big problem. First, you have to be going eight kilometers a second. That's 18,000 miles an hour, just over Mach 23! The second problem: If you're going that fast, yes, you would orbit the Earth and come back where you came from, but there's a lot of air in the way, much less people and things. So you would burn up due to atmospheric friction. So, I do not recommend this.

Frequently Occurring Word Combinations

ngrams of length 2

collocation	frequency
moving sideways	2

Important Words

air
astronauts
atmospheric
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big
bit
burn
called
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cannonball
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curvature
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isaac
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recommend
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zoom