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  • So the atomic number is symbolized by Z

  • and it refers to the number of protons in a nucleus.

  • And you can find the atomic number on the periodic table.

  • So we're going to talk about hydrogen in this video.

  • So for hydrogen, hydrogen's atomic number is one.

  • So it's right here, so there's one proton

  • in the nucleus of a hydrogen atom.

  • In a neutral atom, the number of protons

  • is equal to the number of electrons,

  • because in a neutral atom there's

  • no overall charge and the positive charges

  • of the protons completely balance

  • with the negative charges of the electrons.

  • So let's go ahead and draw an atom of hydrogen.

  • We know the atomic number of hydrogen is one,

  • so there's one proton in the nucleus.

  • So there's my one proton in the nucleus, and we're talking

  • about a neutral hydrogen atom, so there's one electron.

  • I'm going to draw that one electron

  • somewhere outside the nucleus and I'm going

  • to use the oversimplified Bohr model.

  • So this isn't actually what an atom looks like,

  • but it's a very simply view that helps you get started.

  • So this is one, this one version of hydrogen.

  • This is one isotope of hydrogen.

  • So this is called protium.

  • Let me go ahead and write that here.

  • So this is protium and let's talk about isotopes.

  • An isotope, isotopes are atoms of a single element.

  • So we're talking about hydrogen here.

  • That differ in the number of neutrons in their nuclei.

  • So let's talk about the next isotope of hydrogen.

  • So this is called deuteriums.

  • Let me go ahead and write deuterium here.

  • Deuterium is hydrogen, so it must have one proton

  • in the nucleus and it must have one electron outside

  • the nucleus, but if you look at the definition

  • for isotopes, atoms of a single element that differ

  • in the number of neutrons, protium has zero

  • neutrons in the nucleus.

  • Deuterium has one.

  • So let me go ahead and draw in deuterium's one neutron.

  • I'll use blue here, so neutrons are going to be blue.

  • So deuterium has one neutron and since neutrons have mass,

  • deuterium has more mass than protium.

  • So isotopes have different masses because they differ

  • in terms of number of neutrons.

  • Notice though, that they have the same atomic number,

  • they have the same number of protons in the nucleus.

  • Right, it's one proton in the nucleus.

  • And that's important because if you change

  • the number of protons, you're changing the element,

  • and that's not what we're doing here.

  • We're talking about atoms of a single element.

  • Deuterium is still hydrogen, it's an isotope.

  • Finally, our last isotope, which is tridium.

  • So tritium has one proton in the nucleus,

  • one electron outside the nucleus, and we draw

  • that in here, and it must differ in terms

  • of number of neutrons, so tritium has two neutrons.

  • Let me go ahead and draw the two

  • neutrons here in the nucleus.

  • And so those are the isotopes of hydrogen.

  • How do we distinguish between the different isotopes?

  • Well we're going to write little symbols

  • to represent these isotopes.

  • And so the symbol that we'll draw here

  • for protium is going to have the element symbol,

  • which is, of course, hydrogen, and then down here

  • we're going to write the atomic number.

  • So the subscript is the atomic number which is one,

  • because there's one proton in the nucleus,

  • and then for the superscript, we're going

  • to write in the mass number.

  • So let me move down here so we can look

  • at the definition for the mass number.

  • The mass number is the combined number

  • of protons and neutrons in a nucleus,

  • so it's protons and neutrons, and it's symbolized by A.

  • So A is the mass number, which is equal

  • to the number of protons, that's the atomic

  • number which we symbolized by Z,

  • plus the number of neutrons.

  • So A is equal to Z plus N.

  • And for protium, let's look at protium here.

  • So in the nucleus there's only one proton

  • and zero neutrons, so one plus zero

  • gives us a mass number of one.

  • And I'll use red here for mass number so we can distinguish.

  • Alright, so mass number is red and let me use

  • a different color here for the atomic number.

  • Let me use magenta here.

  • So the subscript is the atomic number

  • and that's Z, and the superscript

  • is the mass number and that's A.

  • So this symbol represents the protium isotope.

  • Let's draw one for deuterium.

  • So it's hydrogen so we put an H here.

  • There is still one proton in the nucleus,

  • right one proton in the nucleus,

  • so we put an atomic number of one.

  • The mass number is the superscript,

  • it's the combined number of protons and neutrons.

  • So we look in the nucleus here.

  • There's one proton and one neutron.

  • So one plus one is equal to two.

  • So we put a two here for the superscript.

  • And finally for tritium, it's still hydrogen.

  • So we put hydrogen here.

  • There's one proton in the nucleus,

  • atomic number of one, so we put a one here.

  • And then the combined numbers of protons

  • and neutrons, that would be three.

  • So one proton plus two neutrons gives us three.

  • So there's the symbol for tritium.

  • So here are the isotopes of hydrogen

  • and using these symbols allows us

  • to differentiate between them.

  • So let's take what we've learned

  • and do a few more practice problems here.

  • So let's look at a symbol for carbon.

  • So here we have carbon with subscript six, superscript 12.

  • And if we want to know how many protons,

  • electrons and neutrons there are.

  • So let's first think about protons.

  • Well we know that the subscript is

  • the atomic number and the atomic number is

  • equal to the number of protons.

  • So there are six protons in this atom of carbon.

  • And if it's a neutral atom of carbon, the number

  • of electrons must be equal to the number of protons.

  • So if there are six protons, there

  • must also be six electrons.

  • And finally, how do we figure out the number of neutrons?

  • Well let's go ahead and write down the formula we discussed.

  • The mass number is equal to the atomic

  • number plus the number of neutrons.

  • So the mass number was right here, that's 12.

  • So we can put in a 12.

  • The atomic number was six, right here.

  • So we put in a six.

  • Plus the number of neutrons.

  • Plus the number of neutrons.

  • So the number of neutrons is just equal to

  • 12 minus six, which is, of course, six.

  • So there are six neutrons.

  • So just subtract the atomic number

  • from the mass number and you'll get

  • the number of neutrons in your atom.

  • Let's do another one.

  • This is carbon and this time we have a superscript of 13.

  • The atomic number doesn't change

  • when you're talking about an isotope.

  • If you change the atomic number,

  • you change the element.

  • So there's still six protons in the nucleus

  • of this atom and in a neutral atom,

  • there must be the equal number of electrons.

  • So six electrons and then finally,

  • how many neutrons are there?

  • Well just like we did before, we subtract

  • the atomic number from the mass number.

  • So we just have to 13 minus six

  • to figure out the number of neutrons.

  • So 13 minus six is, of course, seven.

  • So there are seven neutrons in this atom.

  • Another way to represent isotopes,

  • let's say we wanted to represent this isotope

  • in a different way, sometimes you'll see it

  • where you write the name of the element.

  • So this is carbon.

  • And then you put a hyphen here

  • and then you put the mass number.

  • So carbon hyphen 13 refers to this isotope

  • of carbon and this is called hyphen notation.

  • So let me go ahead and write this hyphen notation.

  • Alright, let's do one more example here.

  • Let's do one that looks a little bit scarier.

  • So let's do uranium.

  • So U is uranium.

  • The atomic number of uranium is 92.

  • The mass number for this isotope is 235.

  • So how many protons, electrons,

  • and neutrons in this atom of uranium?

  • So once again for protons, we look

  • at the atomic number, that's 92.

  • So there must be 92 protons.

  • In a neutral atom, the number of electrons is equal

  • to the number of protons.

  • So there are 92 electrons and then finally,

  • to figure out the number of neutrons,

  • we subtract this number from the mass number.

  • So we just need to do 235 minus 92.

  • And that gives us 143.

  • So there are 143 neutrons.

So the atomic number is symbolized by Z

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原子番号、質量数、同位体 (Atomic number, mass number, and isotopes)

  • 91 12
    Tu Howard に公開 2021 年 01 月 14 日
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