Generally, this is an easy concept. However, what I didn't know until years after I took general chemistry is the fact that liquids and solids are not included in the equilibrium expression. I've gotten a question incorrect on an exam, and now I cannot forget it. Ingrain this fact into your memory guys!
This is not entirely correct. In a heterogenous system where the substances are in more than one phase, solids and liquids are not included in the equilibrium expression. In a homogenous system, where all substances are in the same phase, solids and liquids are included because the relative proportions are important.
@@dorsia6938 thank you for this!! and btw the term 'relative proportion' how much of one thing you have relative to something else. where the 'one thing'= reactant, 'something else' = product.. right?
Professor Organic Chemistry Tutor, thank you for showing How to write the Equilibrium expression for a Chemical Reaction in AP/General Chemistry. The concept is simple to follow and understand provided that students/nonstudents realize that liquids and solids are not included in the equilibrium constant expression. This is an error free video/lecture on UA-cam TV with the Organic Chemistry Tutor.
Sulphur trioxide decomposes at high temperature in a sealed container: 2S03(g) ⇌ 2SO2(g)+ O2(g) Initially the vessel is charged at 1000 K with S03(g) at a concentration of 6.09 x 10-3 M. At equilibrium, the concentration of S03(g) was 2.44 x 10-3 M. Calculate the value of Kc Can someone pls help me out with this
Might be a bit late, but basically a balanced equation is when both sides have an equal amount of each element. And basically you check that to see if it's balanced or not. *Note, just in case: if an element doesn't have number to it's right, that means there's just 1 of it. Ex: NH3 is just N1H3 For example, the first example shown in the video is: N2 + H2 = NH3 However, this equation is not balanced as the left side contains 2 Nitrogen and 2 Hydrogen, while the right only contains 1 Nitrogen and 3 Hydrogen. So, in order to balance them, or make the amounts of elements equal on both sides, this happens: 1(N2) + 3(H2) = 2(NH3) --> N2 + H6 = N2H6 or basically: N2 + H6 = N2 + H6 *Second note: the 2 on the right gets distributed to both N and H. This whole process of balancing is basically trying to find the least common "multiple" between both sides. I hope this helps, and if you've already figured it out by now that's equally as great. I also wrote this reply on desktop, so it might look weird if you're viewing it through mobile.
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You are one of the main reasons my AP Chem is above 95% rn. Thank you so much for explaining everything so simply yet efficiently.
Generally, this is an easy concept. However, what I didn't know until years after I took general chemistry is the fact that liquids and solids are not included in the equilibrium expression. I've gotten a question incorrect on an exam, and now I cannot forget it. Ingrain this fact into your memory guys!
For heterogeneous reactions thats is
This is not entirely correct. In a heterogenous system where the substances are in more than one phase, solids and liquids are not included in the equilibrium expression. In a homogenous system, where all substances are in the same phase, solids and liquids are included because the relative proportions are important.
@@dorsia6938 Thank you for this info!!
@@dorsia6938 thank you for this!! and btw the term 'relative proportion' how much of one thing you have relative to something else.
where the 'one thing'= reactant, 'something else' = product.. right?
I'm currently taking general chemistry... finally took the plunge to go back to school and get my bachelor's degree 🤓
I did not understand in 40 min class and got confused but you understood that in first 2 min
Thanks alot sir
I'm taking General Chemistry in an accelerated program. I use my textbook as an itinerary and this UA-cam channel to do my learning.
Professor Organic Chemistry Tutor, thank you for showing How to write the Equilibrium expression for a Chemical Reaction in AP/General Chemistry. The concept is simple to follow and understand provided that students/nonstudents realize that liquids and solids are not included in the equilibrium constant expression. This is an error free video/lecture on UA-cam TV with the Organic Chemistry Tutor.
you make chemistry not so scary
This dude is always good with his explanations
Watching this now because I have a Chemistry exam tomorrow 😩
I literally just learned this in chem today lol. Good review
I literally have a test tomorrow about this, and I am only learning about it now lol
@@srirachasoldier3417same here haha
Thank you! This breaks down the essence of the topic while giving you all of the details you need to solve problems!
Thank you it’s clear now👍
*The Organic Chemistry Tutor* > 90% of Chemistry teachers
Very useful simply explained
Thank you
I wish I would subscribe him 2 times
Thanks a lot this was really helpful
When your chem teacher does everything else EXCEPT for teaching so you gotta re-teach yourself everything he “teaches” 🙄🙄
You made it so easy
It was very useful thankyou sir
nice video but can you raise your volume if u have some time
U literally saved me
Why we take the ratio of products to reactants not by the ratio of reactants to products?
It means we will put product upside and reacrants below....
you're my hero
Thank you for clarification 💗
My teacher is a newbie to this chemistry subject so we have a hard life
Wowwwwwwww proud of you
thank you so much this helped a lot :)
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Yes
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Didn't know it was this easy😹tnx
Can I submit questions to you? LORD knows I struggle a bit in this... like... I kinda like chemistry... I just need more help to fully grasp it.
Thanks
who else is watching this at 1.5x speed
you are a genius! thank you!
Is Kc used for solid & liquid phase??
Amazing thank you so much
Thanks.
Legends are watching in nov and dec
thx
Dont why techers make it uncessesary tough
You my boy blue !
the explantion was good but i got stuck on where did he get the coefficients?? the 1,1,2 & 1,3,2
@Yu Katsuragii nah i think it depends if it was given as for my problem there were no coefs sooo i solved w/o coefs coz there was no indicated..🙂🙂
thank u..
Sir if we consider x mole of N2 than want be
Sulphur trioxide decomposes at high temperature in a sealed container:
2S03(g) ⇌ 2SO2(g)+ O2(g)
Initially the vessel is charged at 1000 K with S03(g) at a concentration of 6.09 x 10-3 M. At equilibrium, the concentration of S03(g) was 2.44 x 10-3 M. Calculate the value of Kc
Can someone pls help me out with this
man you took an L. 7 months and nothing. Sorry
I love you
Thnx alot ✔💕👌💯
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HOW DO YOU KNOW WHEN THE REACTION IS BALANCED OR NOT HELP😭
Might be a bit late, but basically a balanced equation is when both sides have an equal amount of each element. And basically you check that to see if it's balanced or not.
*Note, just in case: if an element doesn't have number to it's right, that means there's just 1 of it. Ex: NH3 is just N1H3
For example, the first example shown in the video is: N2 + H2 = NH3
However, this equation is not balanced as the left side contains 2 Nitrogen and 2 Hydrogen, while the right only contains 1 Nitrogen and 3 Hydrogen.
So, in order to balance them, or make the amounts of elements equal on both sides, this happens:
1(N2) + 3(H2) = 2(NH3) --> N2 + H6 = N2H6
or basically: N2 + H6 = N2 + H6
*Second note: the 2 on the right gets distributed to both N and H.
This whole process of balancing is basically trying to find the least common "multiple" between both sides.
I hope this helps, and if you've already figured it out by now that's equally as great.
I also wrote this reply on desktop, so it might look weird if you're viewing it through mobile.
@@mrcrispycocoa your late BUT TYSM i actually understand now lol TYYY
Thanks
Thanks a lot.
Thx for video