🎯 Key Takeaways for quick navigation: 00:28 *🔬 Reversible and irreversible reactions are classified based on their behavior, with reversible reactions being those that can proceed in both forward and backward directions.* 01:18 *🔄 Unidirectional reactions involve reactants converting to products without the possibility of reverting back to reactants.* 02:32 *🧪 Reversible reactions can establish equilibrium, where both forward and backward reactions occur at the same rate.* 03:15 *⚖️ Chemical equilibrium can be achieved in reversible reactions, where forward and backward reactions occur simultaneously after a certain time period.* 04:48 *🧊 Calcium carbonate decomposition illustrates reversible reactions, converting to calcium oxide and releasing carbon dioxide gas.* 06:10 *📊 Thermodynamic parameters like entropy change play crucial roles in reversible reactions, influencing their direction and equilibrium.* 09:42 *🧪 PCl5 gas undergoes cooking reaction when heated.* 10:09 *📦 Gas containers can be closed or open systems, affecting gas behavior.* 10:42 *💡 Gas composition changes in closed systems during reactions like ammonia production.* 11:25 *🧫 Chemical reactions involve liquid and solid phases, influenced by conditions.* 12:23 *⚖️ Liquid reactions occur based on concentrations and volume changes.* 13:44 *🔍 Concentration changes affect reversible reactions and equilibrium.* 16:52 *🔑 Chemical properties and characteristics are crucial in solving chemical problems.* 17:23 *🚦 Spontaneous reactions refer to those that occur without external intervention.* 18:04 *🔄 Reversible reactions involve both forward and backward reactions.* 19:23 *🔀 Leveraging equilibrium constants aids in determining reaction directions.* 20:11 *⏩ Understanding reaction concentrations helps predict reaction outcomes.* 21:35 *💡 Energy considerations are essential in determining reaction feasibility.* 23:12 *📚 Practice and repetition reinforce understanding of spontaneous reactions.* 24:12 *⚖️ Catalysts can affect reaction rates without being consumed in the process.* 25:28 *🔄 Reactions can proceed in both forward and backward directions simultaneously.* 26:05 *⏪ Understanding forward and backward reactions helps predict reaction rates.* 26:41 *💡 Concentration and pressure considerations are crucial in reaction kinetics.* 27:20 *🔬 Chemical properties equations provide fundamental insights for problem-solving and understanding reaction spontaneity.* Made with HARPA AI
No jokes No extra talks for distrcting students Pure content. Literally I am able to solve N Avasthi after these 10 lectures. Watrched this in 1.3x speed along with notes. The best chemistry teacher I have seen.
@@shriaanshpathak7223 You can download some extensions for chrome and set your own speed, I have it too set usually to 1.2x-14x depending on the video, really helps
Should I do thermodynamics before this chapter? I did it, thermodynamics doesn't depend on chemical equilibrium, so doing that was better than doing chemical equilibrium first.
@9:25 delta G, delta H etc. are taken to be constant.. What does delta H being constant mean? What do we mean when we say change in Enthalpy, or change in entropy is constant? Is it that entropy and enthalpy itself are constant? I didn't understand the delta part being constant. Thanks
it probably means that the difference of the final and initial states always leads to the same number? Thus keeping the change constant (idk just a guess)
22:15 This is confusing for me.Should not the veritical coordinate correspond to gibbs energy of the whole system rather than that of only reactants or only products.Specifically,shouldn't the value of vertical coordinate at minima of graph give minimum possible value of G for system("part of which would be contributed by reactants and part by products").More specifically,may be, the way sir wrote GE of products and reactants corresponding to the minnima,it shouldn't be like that.The graph part was a bit confusing. THANK YOU sir for your efforts.👏👏😃😃😃
🎯 Key Takeaways for quick navigation:
00:28 *🔬 Reversible and irreversible reactions are classified based on their behavior, with reversible reactions being those that can proceed in both forward and backward directions.*
01:18 *🔄 Unidirectional reactions involve reactants converting to products without the possibility of reverting back to reactants.*
02:32 *🧪 Reversible reactions can establish equilibrium, where both forward and backward reactions occur at the same rate.*
03:15 *⚖️ Chemical equilibrium can be achieved in reversible reactions, where forward and backward reactions occur simultaneously after a certain time period.*
04:48 *🧊 Calcium carbonate decomposition illustrates reversible reactions, converting to calcium oxide and releasing carbon dioxide gas.*
06:10 *📊 Thermodynamic parameters like entropy change play crucial roles in reversible reactions, influencing their direction and equilibrium.*
09:42 *🧪 PCl5 gas undergoes cooking reaction when heated.*
10:09 *📦 Gas containers can be closed or open systems, affecting gas behavior.*
10:42 *💡 Gas composition changes in closed systems during reactions like ammonia production.*
11:25 *🧫 Chemical reactions involve liquid and solid phases, influenced by conditions.*
12:23 *⚖️ Liquid reactions occur based on concentrations and volume changes.*
13:44 *🔍 Concentration changes affect reversible reactions and equilibrium.*
16:52 *🔑 Chemical properties and characteristics are crucial in solving chemical problems.*
17:23 *🚦 Spontaneous reactions refer to those that occur without external intervention.*
18:04 *🔄 Reversible reactions involve both forward and backward reactions.*
19:23 *🔀 Leveraging equilibrium constants aids in determining reaction directions.*
20:11 *⏩ Understanding reaction concentrations helps predict reaction outcomes.*
21:35 *💡 Energy considerations are essential in determining reaction feasibility.*
23:12 *📚 Practice and repetition reinforce understanding of spontaneous reactions.*
24:12 *⚖️ Catalysts can affect reaction rates without being consumed in the process.*
25:28 *🔄 Reactions can proceed in both forward and backward directions simultaneously.*
26:05 *⏪ Understanding forward and backward reactions helps predict reaction rates.*
26:41 *💡 Concentration and pressure considerations are crucial in reaction kinetics.*
27:20 *🔬 Chemical properties equations provide fundamental insights for problem-solving and understanding reaction spontaneity.*
Made with HARPA AI
Total- 285min 50sec
in hours- 4hours 45min
In 2x- 2 hours 22.5min
With notes--- 3hours approx
We bow to you bro🙇♀️🙇♂️🙇
You earned everyone's respect 🔥🔥
@@unknown_10_9 bhai ek playlist calculator hota hai ussa aapna aap he pta chal jata hai
@@Its_Vineet09 my whole life was a lie :P
@@Its_Vineet09 link bhejde bhay
sir you are my favourite teacher , you are god and i am your student bless me and always help me to give my best
Best wishes dear
Sir is god and you are devotee😂
Happy teacher's day...i m so grateful and obliged to you
No jokes
No extra talks for distrcting students
Pure content. Literally I am able to solve N Avasthi after these 10 lectures. Watrched this in 1.3x speed along with notes.
The best chemistry teacher I have seen.
1.5 x i guess
Aa konse class mhe hoo
Even i watch at 1.3x , 1.5x is little fast@@shriaanshpathak7223
BUT THIS WILL NOT GIVE AN OVERSEAS CENTURY TO DHONI
@@shriaanshpathak7223 You can download some extensions for chrome and set your own speed, I have it too set usually to 1.2x-14x depending on the video, really helps
*Le Thanos: Where does it all bring you
Back to me because I....
*Le Equilibrium : am inevitable
*Thanos confused screaming*
Completed revision of Chemical Equilibrium for jee advanced 2023❤
(27 days ro go)
Hua?
@@MISSIONIIT2023 .
hua kya?
Huaaaaaaaaa kya
Hua
great explaination sir
completed CHEMICAL EQULIBRIUM
18/11/2024
●TOPICS IN THIS LECTURE :-
→IRREVERSIBLE AND REVERSIBLE REACTIONS.
→ EQUILIBRIUM ALONG WITH GRAPHS..
→CHARACTERISTICS OF EQUILIBRIUM...
proud to be your offline class student :)
Isme Proud hone wali kya baat hai bruh 😂 Replace "Proud" with "Lucky Enough" :)
@@-Borax teri gaan kyu jal rahi hai
Should I do thermodynamics before this chapter?
I did it, thermodynamics doesn't depend on chemical equilibrium, so doing that was better than doing chemical equilibrium first.
@@PadhleBSDK-164 Maine bhi same kiya chill
Thanks
∆H ,∆G, ∆S should be zero at equilibrium ?
Instead of constant
Bro it's change in them yes they are constant that's why there is no change hence change is zero
Bro it's change in them yes they are constant that's why there is no change hence change is zero
@9:25 delta G, delta H etc. are taken to be constant.. What does delta H being constant mean? What do we mean when we say change in Enthalpy, or change in entropy is constant? Is it that entropy and enthalpy itself are constant? I didn't understand the delta part being constant.
Thanks
it probably means that the difference of the final and initial states always leads to the same number? Thus keeping the change constant (idk just a guess)
@@violinnerist6073 I think the same, but I will check about this and confirm it.
Thanks sir
Jee Advanced 2023 . Thank you sir.
22:15
This is confusing for me.Should not the veritical coordinate correspond to gibbs energy of the whole system rather than that of only reactants or only products.Specifically,shouldn't the value of vertical coordinate at minima of graph give minimum possible value of G for system("part of which would be contributed by reactants and part by products").More specifically,may be, the way sir wrote GE of products and reactants corresponding to the minnima,it shouldn't be like that.The graph part was a bit confusing.
THANK YOU sir for your efforts.👏👏😃😃😃
yes i also think same makes sense
i guess sir has mixed 2 graphs in one
Thanks a lot sir ❤
All the best
@@MohitTyagi 🫡
@@Devannsshhi can you tell me which chapter to study first ionic or chemical equilibrium??
@@Lakshya87 chemical
@@MohitTyagi sir please give note pdf link in description ❤
12:16
21:00
Thank you,🙏🙏
No of videos : 10
Average length of video : 28 minutes, 34 seconds
Total length of playlist : 4 hours, 45 minutes, 49 seconds
At 1.25x : 3 hours, 48 minutes, 39 seconds
At 1.50x : 3 hours, 10 minutes, 32 seconds
At 1.75x : 2 hours, 43 minutes, 19 seconds
At 2.00x : 2 hours, 22 minutes, 54 seconds
Thank you bro
Fav!
Sir please upload the lecture of Equivalent Concept
Sir please upload redox
Already uploaded
I am alone ❤🤣 for jeee 2025 ?
26 now
@@AKASHJEEASPIRANT26 🫥
sir provide full theory ?
Sir please upload redox reaction
Sir here you are explaining each point but in thermodynamics you didnt explain the points I was very confused in the chapter😔
i know yaar it was a difficult topic but if learned every lecture then in the end everything would make sense
He did dude...watch videos again
Started:-9/07/2023
4hr 43min playlist
starting:25-08-2024
Just Started on 13 Dec 2022
@@Future_iitian_ 2023 or 2024 aspirants ???
@@Future_iitian_ main bhi hun...
Chemical equilibrium start
Is it required to study thermodynamics before studying this chapter ( chemical equilibrium ) ?
yes, or i guess you can just recite the part linked to thermo.
(gIBS eNergy)
can we study this chapter without studying previous chapters?
No, start from Mole, then Thermo & then u can directly start this chap
Almost 5 hours
Is sir lecture..sufficient for Physical chemistry ..?
thank you sir
starting 11/01/23
Friday 7th April 23
Is it for neet exam?
Yeahh it's for NEET and JEE both, Nothing is missed here
Any jee 25 namoona here?
Koi ye bta do plz ki kya neet aspirant ye kar sakta hai
PlZ😢🥺🥺🥺🥺
Yupp, you can
Sir ye neet wala dekh sakta hai ?
Yes for AIR 1 in neet
@@RoyBoyLab lmaoo
@@RoyBoyLab true....
sep 24, 6:30 PM lecture + notes.
24 July'24 (2:42pm)
started 26/7/23
sir doubt :should we have to do gaseous state before starting this chapter.
Please reply if you see this comment. 😕
Also sir can we skip gaseous state
u have to!
starting 29/12/2022
Sir please upload redox reaction
Sir please upload redox reaction
ACCIO REDOX REACTION
Sir please upload redox reaction