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Could anyone please explain why H2(g) doesn't deviate below the line in the PV-V graph? I mean it does have intermolecular forces (Van der Waal's) so doesn't it behave "really". So, why does the line on the graph behave linearly and not go downwards.? Other than that, This video cleared all of my doubts and I couldn't thank you more!!!!
Sir can you please solve my doubt... At low pressure attractive forces are predominant. At high Pressure repulsive forces are predominant. Am I right??
no. ideal gas has no intermolecular forces. but real gas particles attract each other, so in reality value of P is lesser as particles dont collide with container with enough force as they are pulled from behind. so P×V value decreases. at high P above is still true but something else happens. ideal gas says if you increase P, V should decrease. more P, less V. but real gas wouldnt compress after a certain point. so you keep increasing P but V becomes constant. so P×V starts increasing
Saw a American Video with hi-fi animations, didn't understand Y these Indian guys do it better? No matter whatever you do there is an Indian who would do it better.
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the only video on youtube that explained what i needed. Thank you so very much.
thanks it really helped ❤
Thank youuuuu it was soo helpful ❤❤
sir,how it is possible! Is there any value of pv when p equal to 0 ??🙏🙏
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You have saved my life. Very simple to understand thank you so very much!!
Is this video for As level?
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Very nicely explained.. thank you...
Thank you, clear explanation, and up to the point.
Could anyone please explain why H2(g) doesn't deviate below the line in the PV-V graph? I mean it does have intermolecular forces (Van der Waal's) so doesn't it behave "really". So, why does the line on the graph behave linearly and not go downwards.? Other than that, This video cleared all of my doubts and I couldn't thank you more!!!!
H2 has the least intermolecular force compared to any other compound. so the drop in pressure might be too negligible.
Clear explanation.. thanx a lot
Wow.. it cleared my doubts thanks
Sir can you please solve my doubt...
At low pressure attractive forces are predominant.
At high Pressure repulsive forces are predominant.
Am I right??
no.
ideal gas has no intermolecular forces.
but real gas particles attract each other, so in reality value of P is lesser as particles dont collide with container with enough force as they are pulled from behind. so P×V value decreases.
at high P above is still true but something else happens. ideal gas says if you increase P, V should decrease. more P, less V. but real gas wouldnt compress after a certain point. so you keep increasing P but V becomes constant. so P×V starts increasing
@@MEGALecture
Thank you so much
Thankyouuu this helped a lot!!
+asad zoya happy to be of help. Join us at www.fahadsacademy.com
Sir, how to plot T^γ • P^(1-γ)= const. in P T coordinate.
Saw a American Video with hi-fi animations, didn't understand Y these Indian guys do it better? No matter whatever you do there is an Indian who would do it better.
Gr8 explanation
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Thanks
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Thanjyou
Sir can u do a video on Peridocity trends for PERIOD 3 group 2 and 7 trends and explainations ASAP?
rly appreciate it sir!!!:D
happy teachers day 🎉😆
Thank you so much this was very to the point the 25 mis was indeed worth it
Gr8 but too slow
There's playback speed option available :)