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Course: High school chemistry > Unit 3
Lesson 1: Representing chemical reactionsIntro to chemical reactions
Bonds between atoms or molecules are formed and/or broken during chemical reactions. Reactants are the inputs of a chemical reaction, and products are the outputs. Created by Sal Khan.
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how to identify a chemical reaction ?(6 votes)
Key points
1) Chemical reactions make new chemicals.
2) Atoms are rearranged during a chemical reaction, but the number of atoms does not change.
3) Evidence of chemical reactions includes a large temperature change, bubbles, or a colour change.
4) Chemical reactions can be represented using equations.(9 votes)
- What is the no. of hours of content at Khan Academy for Class 10 Chemistry India(3 chapters)?(10 votes)
i learnt in physics that energy can neither be created nor destroyed so is is a large amount of energy produced in the space shuttle when the liquid oxygen reacts with hydrogen??(6 votes)
First you'll have to understand how a chemical reaction takes place. Energy may change form during a chemical reaction—for example, from chemical energy to heat energy when gas burns in a furnace—but the same amount of energy remains after the reaction as before. So, whether a chemical reaction absorbs or releases energy there is no overall change in the amount of energy during the reaction. Therefore, energy won't be "created" in the space shuttle.
Before the reaction, the liquid oxygen and hydrogen were neutral i.e. weren't releasing or absorbing any energy. But when these two substances are mixed i.e. a chemical reaction takes place; the energy is released.(8 votes)
- Is "energy is produced" the right term in this context? I understand "energy is released" would be correct.(4 votes)
there is a difference between releasing and producing.
Releasing means leaving out whereas producing means creating or making so ENERGY IS PRODUCED NOT RELEASED.(3 votes)
- When does the breaking of chemical bonds release energy?(2 votes)
This happens when the reaction is exothermic, i.e. energy is released. Most exothermic reactions can be decomposition reactions (most but not all!).(3 votes)
- At0:18, about approximately how many chemical reactions take place within a human body?(2 votes)
- How would we not exist without chemical reactions?(1 vote)
- We wouldn't be able to turn food into energy for our survival, lack of breathing and respiration would deprive cells of oxygen that is essential for life, photosynthesis wouldn't be able to produce oxygen in plants, nerve signals wouldn't be able to go across the body which would affect mobility and sensory perception.(2 votes)
~1:30
Why would you need two hydrogen molecules and one oxygen molecule to make water? Couldn't you just have one oxygen atom and two hydrogen atoms?(1 vote)
Oxygen and Hydrogen atoms can't exist independently due to their unstable electronic configuration. So, they exist as molecules rather than individual atoms. Therefore, you'd need molecules to carry out the reaction.(2 votes)
- Are the coeificents to balance out the equation or charges?(1 vote)
I guess you could say both. Mostly, it's just there so that the reaction makes sense, and both the equation and the charges have to be balanced in order for it to make sense.
You might think H2+O=H2O will balance out the charges and the equation just fine (at least, that's what I thought when I first learned this.) but in reality, the atom O doesn't just exist on its own. It HAS to be O2.
So now it's H2+O2=H2O, but this is not balanced. The right side and the left side has to be equal to be able to use the equal sign (=) in between. You would get H2O but you would have an oxygen atom left.
So here's where the coefficients come in. If there were two H2s instead of one, there would be in total 4 hydrogen atoms and 2 oxygen atoms. So that makes two perfect H2Os. Hence 2H2+O2=2H2O (I don't know how to make the 2 smaller, sorry)
I hope this makes sense and answered your question.(2 votes)
- When does the breaking of chemical bonds release energy?(1 vote)
0:18Video transcript
let's talk a little bit about chemical reactions and chemical reactions are a very big deal without chemical reactions you or I would not exist in your body right now there are countless chemical reactions going on every second without chemical reactions we would have no life we would not even have the the universe as we know it so what are chemical reactions well there any time that you have bonds being formed or broken between atoms or molecules so what do we what do we what are we talking about there well this is maybe one of the most fundamental chemical reactions once again if this one never occurred we'd be in trouble we would not have we would not have any water but let's think about what it is actually describing so over here on the left hand side we have the reactants let me write that down so here we have the reactants these are the molecules that are going to react and then we have an arrow that moves us to the product so let me do that in a different color so we have an arrow that moves us to the product or though we could say the products and so what are the reactants here well we have molecular hydrogen and we have molecular oxygen now why did I say molecular hydrogen because molecular hydrogen which is the state that you would typically find hydrogen and if you just have it by itself is actually made up of two hydrogen atoms you see it right over here one two hydrogen atoms and what we have in order to have this reaction you don't just need one molecular hydrogen in one or one molecule of hydrogen one molecule of oxygen for every four for this reaction to happen you actually have two molecules of molecular hydrogen so this is actually made up of four hydrogen atoms so let me make this clear so this is right over here this is two molecules of molecular hydrogen and that's why we have the two right out front of the H sub 2 the this little subscript 2 tells us there's two of the hydrogen atoms in this molecule and then this big this big white two that we have right over here that tells us that we're dealing with two of those molecules for this reaction happened that we need two of these molecules for every aku for every molecule of give our oxygen and molecular oxygen once again this is composed of two oxygen atoms one two so under the right conditions so you need a little bit of energy to make this happen if under the right conditions these two things are going to react it actually it's very very reactive molecular hydrogen molecular oxygen so much so that it's actually used for rocket fuel you are going to produce two molecules of water we see that right over here and look I did not create or destroy any atoms I had one I had one I had one oxygen atom here it was part of the oxygen molecule right right here and then I have the second one right over here now now they are part of separate molecules I had I had a I had 1 2 3 4 hydrogen's I now have 1 2 3 4 hydrogen's just like that and actually this produces a so we could say some energy and I'm being inexact right over here some energy and then we could say a lot of energy a lot of energy so this is a reaction that you just give it a little bit of a kickstart and it really wants to happen a lot a lot of energy so one thing that you might wonder and this is something that I first wondered when I learned about reactions well how do how does this happen oh this is a very organized thing you know do these do these molecules somehow know to react with each other and the answer is no chemistry is a incredibly messy thing you have these things bouncing around they have energy they they're bouncing around all over the place and why should when you provide energy they're gonna bounce around even more rigorously enough so that they they collide in the right ways so that they break their old bonds and then they form these new bonds so whenever you see these reactions in biology or chemistry class keep that in mind it looks all neat and organized but in a real system these are these are all of these things just bouncing around in all different crazy ways and that's why energy is an important thing here because the more energy you apply to the system the more that they're going to bounce around the more that they're going to interact with each other the more reactants you put in the more chance that they're going to bounce and be able to react with each other now I'm going to introduce another word that you're going to see in chemistry a lot this this water these two we see we have two water molecules here we could call them molecules but since they are actually made up of two or more in different elements we can also call this a compound so water water is you could call it a molecule or you could call it a compound so this is a molecule or compound while this molecular hydrogen you would not call this a compound and this molecular oxygen of course it's a molecule but you would not call it a compound either and just to get an appreciation of how much energy this produces let me show you this picture right over here that's the space shuttle and this this big tank right over here let me this big tank contains a bunch of liquid oxygen and hydrogen and to create this incredible this incredible amount of energy it actually just uuu mix the two together with a little bit of a with a little bit energy and then you produce a ton of energy that makes that makes the rocket that makes the space shuttle well space shuttles been discontinued now but back when they did it to make it to make it get-get it's it's necessary it's necessary velocity