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Carbon as a building block of life

Carbon as a building block of life.

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  • starky ultimate style avatar for user Destroyer 74
    If we are made up of atoms and molecules,what makes us living not dead,like other chemicals ?
    (21 votes)
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    • piceratops ultimate style avatar for user Just Keith
      Life is an emergent property -- that means a property held by the whole that is not held by the parts. The chemicals of which life is composed are neither alive nor dead, but collectively they can have the properties we call life.

      Emergent properties are not at all unusual. For example, cotton fibers are quite easily pulled apart, but twisted together and woven into cloth they take on an emergent property of being quite strong. Individual drops of water do not have the property of "storm" but a lot of water can.

      And so it is with life. Life is an emergent property that a vast number of chemicals can sometimes take on, though the individual chemicals do not have this property.
      (58 votes)
  • leaf red style avatar for user Julian Delgadillo Marin
    Why there are not silicon based diamonds?
    (21 votes)
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  • female robot grace style avatar for user Anna
    Why aren't some carbon oxides organic like CO2, CO, and CO3

    I mean I could see CO2 as being meth-1,1-dione.

    I mean yes mellitic anhydride is organic and so is pentacarbon dioxide but why aren't these simpler 1 carbon oxides organic?
    (10 votes)
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    • female robot ada style avatar for user Lidiya
      Most often, organic compounds are defined as those that have both carbon and hydrogen in them although there is at least one exception to this rule: sodium bicarbonate. The carbon oxides CO and CO2 do not have hydrogens, therefore they are not considered to be organic molecules (at least by one school of thought).
      (11 votes)
  • old spice man blue style avatar for user Ding Serena
    At the beginning of the video (around ) he said that life is carbon based. What is that supposed to mean?
    (4 votes)
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    • ohnoes default style avatar for user Aqua
      What Sal means at is that all known life forms contain the element carbon. Of course, there are other elements that are found in a majority of life-forms as well. But carbon is the most prominent. Scientists have yet to find a living organism that does not contain carbon in its chemical makeup. Therefore, as far as we can tell, all life is carbon-based.
      (14 votes)
  • blobby green style avatar for user cdsears
    What is life?
    (3 votes)
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  • winston baby style avatar for user Ivana - Science trainee
    At Sal says that 'it's not pure carbon but it has a lot of carbon' while talking about graphite pencils.

    Was he pointing to the whole pencil (which obviously is not whole carbon since it has wooden parts) or to the pencil core?

    Isn't pencil core graphite? Isn't graphite made purely form carbon? Both diamond and graphite are 100% carbon, right?

    (2 votes)
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  • marcimus pink style avatar for user Ci Qian W
    How do we know a substance is made of what atoms? For example how do we know methane is made of carbon and hydrogen atoms?
    (4 votes)
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    • leaf green style avatar for user Green
      We have a way of finding out and we use STM which we can trace an atom. We know because emissions of substances and we can use TEM to find the number of protons in an atom. Protons define an atom, however many protons an element has, is the atoms atomic number.
      (5 votes)
  • aqualine seedling style avatar for user shivangibhatt3107
    why is carbon the building block of life ?
    (2 votes)
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    • leaf red style avatar for user Richard
      Carbon has two main benefits; it has moderate electronegativity and it can catenate.

      Electronegativity is a measure of how strongly an atom wants to pull electrons from other atoms. Having high electronegativity means an atom strongly pulls electrons away from other atoms, and having low electronegativity means it’ll surrender its electrons easily to more electronegative atoms. Carbon has moderate electronegativity; not too high and not too low. It’s high enough to attract electrons to itself for bonding, but not too high that it completely rips electrons away from other atoms. This allows it to easily share electrons with other atoms in covalent bonds.

      Catenation is the ability of atoms of the same element to bond together in a series to forms things like chains and rings. Instead of being limited to a single central atom, organic compounds are often long links of carbon atoms bonded to each other. This allows for a vast range of possibilities of organic molecules. There are more organic molecules with carbon as the central atom than there are molecules made with central atoms other than carbon combined.

      Using these two rules, you can build very complex molecules like DNA and proteins which are the basis of life.

      Hope that helps.
      (6 votes)
  • leaf red style avatar for user B L Ø Ø ᑐ  | Я ᕮ ᑐ  | Γ Λ L L
    is silicon based life a posibility?
    (3 votes)
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  • cacteye yellow style avatar for user Br Paul
    , is the carbon that has three hydrogen bonds different than the carbon that has two hydrogen bonds?
    (3 votes)
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    • male robot hal style avatar for user Xalibur
      notice that the carbon that has 2 hydrogen bonds is also bonded with 2 carbon atoms which forms a chain of compound hence these carbon atoms have 2 hydrogen bond and 2 carbon bond.these helps to form a stable chain where the electrons are shared equally.
      (2 votes)

Video transcript

You're probably already familiar with some forms of carbon. For example this graph I write over here, this is one form carbon takes. Very important when you're writing with a pencil, otherwise you would not see any writing. If you didn't have the graphite scraping onto your, scraping onto your paper, which you and your paper is also. It's not pure carbon, but it has a lot of carbon in it. This right over here is a raw diamond, another form the carbon can take under intense time or after a long period of time under intense pressure. But what you may or may not realize is that carbon is actually essential for life. In fact life as we know it is carbon-based, so carbon-based, based life. When we look for signs of life, at least life as we know on other planets,we are looking for signs of carbon-based life. And there might be other forms, other other elements that form the backbone of life. But carbon is the only one that we have been able to observe. Now why is carbon so valuable for life? Why does it form the backbone of the molecules that make life possible ? What all comes down to where it sits in the periodic table? And how many and its atomic number and how it tends to bond with things? So this is why Chemistry is important. So carbon we see over here has an atomic number six, which by definition means it has 6 protons. So far we draw its nucleus it would have 1,2 , 3, 4, 5, 6 protons. And the most common isotope of carbon on earth is carbon 12, which also has six neutrons. So let me draw that in this nucleus 1, 2, 3, 4, 5, 6 neutrons. And then neutral carbon is going to have six electrons. And so two of them are going to be in their inner most in the first shell .So that's two of them right over there. These are the inner shell. I guess you could say or the so that's the first two electrons ,and then you have four remaining in its outermost shell. And these four considered valence electrons, these are the electrons that actually do the reacting. And if any of this seems unfamiliar to you,I encourage you to watch the videos on Khan Academy on things like valence electrons, but this is a little bit overview right over here. Carbon has four valence electrons. Valence electrons are the ones that do or that tend to do the reacting. And so I could if I wanted to simplify this drawng over here,I could say ,"Okay carbon."And if I register as valence electrons which is a typical thing to do. I could say carbon has 1, 2, 3 ,4 valence electrons. Now you might remember the octet rule that that atoms tend to be more stable when they at least pretend, like they with that they're sharing or that they have eight electrons in there outermost shell. So carbon can do that by forming 4 covalent bonds. For example it could do that with hydrogen.This hydrogen over here has one valence electron. It actually has one electron. Now the hydrogen feels good. It feels like its sharing two-electrons filling its its first shell .Hydrogen is just trying to fill out the first shell, feel a little bit more like helium and now carbon says," Oh,now I get to share share this electron." And then carbon can do it again with another hydrogen. It can do it again with another hydrogen. And it can do it again with another hydrogen. So now carbon can feel like," Hey I'm sharing eight electrons and the each of the hydrogens feel like, "Oh look you know I I'm sharing two electrons." Everyone seems to be happy everyone seems to be stable. And this molecule right over here, this is methane ,this is methane. And by definition because it involves carbon it is considered an organic molecule. It is considered an organic molecule. In fact, the whole the whole field of Organic Chemistry is all about studying organic molecules which are molecules that have carbon. Now because this only has carbon and hydrogen in it,it is also considered to be a Hydrocarbon. Hydrocarbon Hydrocarbon. And you might be familiar with things like gasoline being considered a Hydrocarbon. And it is indeed a Hydrocarbon. In fact gasoline gasoline actually even even methane could be used as fuel right over here. But in typically you can see these long chains of hydrocarbons. For example, you could have 8 carbons form octane. You might be familiar things like high octane fuel. So let's see carbon 2, 3, 4, 5, 6, 7, 8. This is a hydrocarbon. Its Octane because it has 8 carbons Oct, Octane. In all the other bonds remember carbon forms 4 bonds. It typically forms 4 bonds. So now that carbon has 4 bonds. Now this carbon has 4 bonds. Now this carbon 2 of them to hydrogen ,2 of them to carbon.2 to hydrogen, 2 to carbon. Hopefully this starts to give you an appreciation why carbon is so useful as a building block because it can form so many bonds with so many different structures. And these hydrocarbons they can be chains or they can even form, they can even form rings they can form cycles.And in things like graphite and in diamond carbons can form these lattice structures, where you know know carbon is for is bonding. Carbon is forming is bonding to more than two carbons in these three dimensional shapes. In these three, in these three dimensional shapes. And the shape because it's forming three bonds that that carbon typically forms bonds in these are called tetrahedral shapes or tetrahedral bonding. And when someone says tetrahedron if someone says tetrahedron they're talking about they're talking about a..Wait let me use a different color. So a tetrahedron is a three-dimension, a three-dimensional shape that has four sides each of which are triangles. Each of which are triangles. So it would look like this. You could do it as a pyramid with a triangular base. A pyramid with a triangular base. And when carbon forms bonds as in the case have this methane right over here. I'd rather the carbon in the middle as this, yellow circle ,then each of the hydrogens over here are going to be at the corners or at you say the vertices of the tetrahedron. And so this is the tetrahedral shape that carbon is actually forming. Of course you have these co valent bonds right over here. Let me do this in a different color. You have these covalent bonds over here and we could draw it like this. We could draw these covalent bonds like this. That's 1 of them, maybe that's this one over here. This one over here is right over here.These electrons are all just buzzing around. And then the one we have over here and then you have one over here. So you might see methane sometimes just drawn like this. You might just see it drawn, you might just see it drawn like this. But it's really forming, it's really forming a tetrahedral a tetrahedral shape. Me finished drawing it, so hydrogen hydrogen hydrogen hydrogen where each of these lines represent a pair of e electrons here. Eight electrons being shared in aggregate, but the actual shape is closer to this. Now I'm claiming to you that it's the backbone of life or life as we know it. And its even the back bone of life is as you are. Life in the form of you. We've already talked about you being a majority water and that's why if you look at the average human being is the average human being is going to be roughly depends on how much how hot well hydrated you are in your stage of development. The average human being is going to be sixty-five percent oxygen by mass. So you are two-thirds oxygen that's because of all of the water. Water is H2O. And oxygen forms the bulk of the mass of the water molecule. But in second place comes carbon. In second place comes carbon. Carbon is approximately 18 % of your body's mass. And this is because everything, but the non fluid ,the non liquid part of your body. In there's a lot of carbon going on there. This right over is a DNA molecule and so these little grey areas, this is all carbon. This right over here, this right over here is Hexokinase. I'm not going to go into the details about what it does. But Hexokinas is a protein. Hexokinas and the teal colored that you see there, that is all carbon. That's all carbon. This right over here is glucose. It is very sweet.It's an important way to regulate your body's energy. And the teal color that is carbon. This is ATP, often considered to be the the molecular currency of the energy in your body. And all the teal there this is carbon. This is why a lot, especially the non water part of your body is carbon. So hopefully this gives you a better appreciation for carbon. It's not just useful for pencils and diamonds, but even if you're just looking at your hand You're looking at a lot of carbon.