跟读练习: Molecules, crystals, and diatomic elements | Middle school chemistry | Khan Academy - 通过YouTube学习英语口语
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If you zoom into water,
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If you zoom into water,
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you will find a molecule of water,
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where you have one oxygen atom attached to two hydrogen atoms.
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You will find trillions and trillions of them.
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Similarly, if you were to zoom into methane,
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which we also call natural gas,
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you will now find molecules of methane,
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which happens to be one carbon atom attached to four hydrogen atoms.
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Again, you will find trillions and trillions of them.
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So the big question now is,
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what would you get if you were to zoom into table salt, which is NaCl?
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Well, our guess could be we'll find molecules of NaCl,
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where one Na is attached to one Cl.
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Trillions and trillions of them, right?
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Wrong.
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That's not what we'd get.
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We'll get something completely different. But what?
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Well, let's find out.
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So what will we find if we were to zoom into NaCl?
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We'll get something like this,
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where you'll find trillions of Na's and trillions of Cl all connected to each other.
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We call this a crystal of sodium chloride, crystal of NaCl.
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You probably heard of this word crystal,
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it means we have an orderly repeating pattern.
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This looks very different, right?
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So let's compare it with what we saw earlier.
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If we were to go back to the molecules of water,
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what we find is that an individual oxygen is connected to two other hydrogen atoms.
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And that connection is due to a force of attraction,
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which we call a chemical bond.
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The same thing is happening over here.
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There's a chemical bond because of which a carbon atom is attached to four hydrogen atoms,
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right but
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when it comes to a crystal of NaCl look we don't
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have individual molecules like with what we see over here we don't find them instead we find trillions
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and trillions of Na's connected to trillions and trillions of Cl in
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that chemical bond so there are no individual molecules you only have a crystal
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but wait a second wait a second wait a second again if we go back to molecule of water.
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The reason why we call it H2O is
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because you have two hydrogen atoms connected to one oxygen atom to form a single unit molecule, right?
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Same is the case over here.
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It's because you have one carbon attached to four hydrogens.
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That's why we say the,
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you know, this is CH4.
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But what about over here?
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Why do we call it NaCl?
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I mean, if you don't have individual molecules,
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what does it mean to say NaCl?
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Well, what it means is that if you were to take a chunk of this crystal,
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then you will find equal amounts of Na and Cl.
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In other words, you will have them in the ratio 1 is to 1.
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For every 1 Na, you will find 1 Cl.
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That is what that means over here.
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It doesn't mean that you'll find a molecule of NaCl where 1 Na is attached to 1 Cl.
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No, no, no. You find a crystal,
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but the ratio of NaNCl is 1 is to 1.
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That's what it means over here.
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And we can take another example of the salt.
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There are other salts as well.
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So for example, if you take potassium oxide,
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it also happens to be a salt.
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It is K2O, where K is potassium, O is oxygen, okay?
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But what does it mean to say K2O?
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Does it mean that there are molecules of K2O?
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No, this is again a crystal.
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It's a crystal of potassium oxide.
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But what does it mean for us to say K2O?
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Well, what it means now is that if you were to take a chunk of this crystal,
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you will find that there are twice as many potassium as oxygen.
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You'll have two potassium atoms for every oxygen atoms.
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That's what it means to say it is K2O.
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So putting it all together,
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what we have so far is that we can have two kinds of compounds.
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We have compounds that are made of individual molecules and we have compounds which are made of crystals.
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Now, of course, these are just two general categories of compounds,
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but there are more advanced forms of compounds as well.
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We'll not worry too much about them.
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But anyways, the compounds that are made of molecules are called molecular compounds
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and the ones that are made of crystals are called crystalline compounds.
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So look, not all compounds are made of molecules.
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That's the important thing.
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They can also be crystalline.
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They can also be made of crystals.
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But here's an interesting question.
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Not all compounds are molecules, right?
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But what about the other way around?
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Are all molecules compounds?
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Well, let's see.
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Let's take an example.
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What if we were to zoom into oxygen?
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Well, we'll find that two atoms of oxygen are combined together to form O2,
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which is a molecule of oxygen.
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And of course, we'll find trillions and trillions of them.
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But the big question is, is this a compound?
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The answer is no, it's not a compound.
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Because remember, compounds are chemical combination of two or more different elements.
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Here, there's a chemical combination of the same element.
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Oxygen and oxygen is getting combined.
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So it's a molecule, but it is not a compound.
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In fact, we call this as diatomic element.
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Di because there are two.
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And there are other examples of diatomic elements.
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Nitrogen, fluorine, chlorine, and many more.
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Well, of course, one thing to remember is
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that these elements are usually diatomic when they're alone like when you have oxygen gas or chlorine gas.
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But of course, when they do form a compound, they can split apart.
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Again, go back to molecule of water.
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You can have one oxygen atom combined to two hydrogen atoms.
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Anyways, if you put it all together,
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we have elements which are the fundamental building blocks of matter.
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Some elements are made of individual atoms.
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We usually call them monoatomic,
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mono for single individual, like gold or mercury.
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And other elements can be formed as diatomic,
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like molecules of nitrogen or oxygen.
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And when two or more different elements chemically combine together, we get compounds.
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We can have molecular compounds where you find individual molecules,
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or we can have crystalline compounds when there are no molecules at all.
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And finally, we categorize this all under what we call pure substances,
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because they're made of purely the same stuff.
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For example, water is purely made of water molecules.
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sodium chloride is purely made of NaCl
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and oxygen for example is purely made of oxygen molecules so
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because they're all made of purely the same stuff these are all pure substances
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关于本课
在本节课中,学习者将深入了解化学中分子、晶体和二原子元素的概念。您将学习水分子和甲烷分子的结构,以及食盐(NaCl)的晶体结构。这节课将帮助您掌握基本的化学词汇,同时提升您的英语听力和口语技能。通过与视频的对话练习,您将提高在科学领域中使用英语的能力。
关键词汇与短语
- 分子 (Molecule) - 一种由两个或更多原子组成的化学结构。
- 晶体 (Crystal) - 由重复的有序模式构成的固体,更加稳定。
- 二原子元素 (Diatomic Elements) - 由两个相同的原子组成的化学元素,如氢(H2)和氧(O2)。
- 化学键 (Chemical Bond) - 原子之间的吸引力,形成分子或晶体。
- 氯化钠 (Sodium Chloride, NaCl) - 厨房盐的化学名称,构成其晶体结构的元素。
- 氢 (Hydrogen) - 一种轻的化学元素,符号为H。
- 氧 (Oxygen) - 生命所需的重要元素,符号为O。
- 甲烷 (Methane) - 一种主要组成天然气的化合物,化学式为CH4。
练习技巧
为了有效地运用英语影子跟读技术,您可以在观看视频时尝试以下技巧:
- 调整播放速度:从慢速开始,确保您能听清每个单词的发音和语调。
- 暂停并重复:在视频播放到某个句子后暂停,尝试重复这个句子,模仿说话者的语调和速度。
- 分段练习:将视频分成小部分,每次专注于一小段内容,直到掌握后再继续下一个部分。
- 使用辅助工具:在看YouTube学英语和其他shadowing site上找到适合的练习材料。
- 记录并比较:录制自己的声音并与视频中的发音进行比较,找出需要改进的地方。
通过这些练习,您将能够更自信地用英语讨论与科学相关的话题,同时提升您的语言流利度和交流能力。
什么是跟读法?
跟读法 (Shadowing) 是一种有科学依据的语言学习技巧,最初开发用于专业口译员的培训,并由多语言者Alexander Arguelles博士普及。这个方法简单而强大:您在听英语母语原声的同时立即大声重复——就像是一个延迟1-2秒紧跟说话者的影子。与被动听力或语法练习不同,跟读法强迫您的大脑和口腔肌肉同时处理并模仿真实的讲话模式。研究表明它能显着提高发音准确性,语调,节奏,连读,听力理解和口语流利度——使其成为雅思口语备考和真实英语交流最有效的方法之一。