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Nuclear Chemistry: Crash Course Chemistry #38

If you're seeing this message, it means we're having trouble loading external resources on our website. To log in and use all the features of Khan Academy, please enable JavaScript in your browser. Science Biology History of life on Earth Radiometric dating. Carbon 14 dating 1. Carbon 14 dating 2. Atomic number, atomic mass, and isotopes. Video transcript What I want to do in this video is kind of introduce you to the idea of, one, how carbon comes about, and how it gets into all living things.

You can essentially view it as a nitrogen where one of the protons is replaced with a neutron. And what's interesting about this is this is constantly being formed in our atmosphere, not in huge quantities, but in reasonable quantities. So let me write this down. And let me be very clear. Let's look at the periodic table over here. So carbon by definition has six protons, but the typical isotope, the most common isotope of carbon is carbon So carbon is the most common.

So most of the carbon in your body is carbon But what's interesting is that a small fraction of carbon forms, and then this carbon can then also combine with oxygen to form carbon dioxide. And then that carbon dioxide gets absorbed into the rest of the atmosphere, into our oceans. It can be fixed by plants. When people talk about carbon fixation, they're really talking about using mainly light energy from the sun to take gaseous carbon and turn it into actual kind of organic tissue.

And so this carbon, it's constantly being formed. It makes its way into oceans-- it's already in the air, but it completely mixes through the whole atmosphere-- and the air.

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And then it makes its way into plants. And plants are really just made out of that fixed carbon, that carbon that was taken in gaseous form and put into, I guess you could say, into kind of a solid form, put it into a living form.

That's what wood pretty much is. It gets put into plants, and then it gets put into the things that eat the plants. So that could be us. Now why is this even interesting?

How Does Radiocarbon Dating Work? - Instant Egghead #28

I've just explained a mechanism where some of our body, even though carbon is the most common isotope, some of our body, while we're living, gets made up of this carbon thing. Well, the interesting thing is the only time you can take in this carbon is while you're alive, while you're eating new things.

Because as soon as you die and you get buried under the ground, there's no way for the carbon to become part of your tissue anymore because you're not eating anything with new carbon And what's interesting here is once you die, you're not going to get any new carbon And that carbon that you did have at you're death is going to decay via beta decay-- and we learned about this-- back into nitrogen So kind of this process reverses.

So it'll decay back into nitrogen, and in beta decay you emit an electron and an electron anti-neutrino. I won't go into the details of that.

But essentially what you have happening here is you have one of the neutrons is turning into a proton and emitting this stuff in the process.

Now why is this interesting? So I just said while you're living you have kind of straight-up carbon And carbon is constantly doing this decay thing. But what's interesting is as soon as you die and you're not ingesting anymore plants, or breathing from the atmosphere if you are a plant, or fixing from the atmosphere. And this even applies to plants. Once a plant dies, it's no longer taking in carbon dioxide from the atmosphere and turning it into new tissue. The carbon in that tissue gets frozen.

And this carbon does this decay at a specific rate.

And then you can use that rate to actually determine how long ago that thing must've died. So the rate at which this happens, so the rate of carbon decay, is essentially half disappears, half gone, in roughly 5, years. And this is actually called a half life.

And we talk about in other videos. This is called a half life. And I want to be clear here. You don't know which half of it's gone. It's a probabilistic thing. You can't just say all the carbon's on the left are going to decay and all the carbon's on the right aren't going to decay in that 5, years. So over the course of 5, years, roughly half of them will have decayed.

Now why is that interesting? Well, if you know that all living things have a certain proportion of carbon in their tissue, as kind of part of what makes them up, and then if you were to find some bone-- let's just say find some bone right here that you dig it up on some type of archaeology dig. And you say, hey, that bone has one half the carbon of all the living things that you see right now.

It would be a pretty reasonable estimate to say, well, that thing must be 5, years old.

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Even better, maybe you dig a little deeper, and you find another bone. Maybe a couple of feet even deeper. So how old is this? And then after another half life, half of that also turns into a nitrogen Half Life Worksheet 2. Can anything effect the rate of a half life? Take out review books HW: Fossils Fossil are the preserved remains or traces of living things. They form when living things die and are buried by sediment. My presentations Profile Feedback Log out.

Auth with social network: Registration Forgot your password? What have we already learned about rock age in the last unit Think about the laws pertaining. What is relative dating? Interpreting the Rock Record.

How can you tell if one fossil is older than another? What is an index. About project SlidePlayer Terms of Service. Feedback Privacy Policy Feedback.


  1. Kam

    Certainly. All above told the truth. Let's discuss this question.

  2. Mak

    It was specially registered at a forum to tell to you thanks for the help in this question.


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