Heat capacity at constant volume and pressure | Physical Processes | MCAT | Khan Academy

I was "taught" this 5 times by now, only only just now do I understand where W = PΔV comes from. Thanks!

omggg this lecture was so easy to understand,
p.s if you are a student from Pakistan please do watch this video this is a 1000 times better than the books and the conventional techer lecture on this topic.

wow, this is the best explanation I've come across... Amazing!!

It's incredible how good you are at explaining. I'm covering this topic rn during bsc and I couldn't understand a thing until I saw this video.

big thanks

Best explanation I have ever seen. You have a "friction free" way of sharing your thermodynamic insights! Many thanks.

Was the point of this video to see where the equations are derived from? I'm a little confused about how we would use this and apply it on the mcat exam

thks soo much I'm glad I came across this clarifying video

High level explanation

Amazing. Drove the ball home for me. Thank you!

your explanation is better than my professor's....

this is the best video about cp and cv thanks!

its a good video, khan always have good vids.......

Thanks sir! You made it way way easier.

Excellent video. Just what I needed!

thank you good sir, great video and had everything i needed in it

Fabulous teaching thanks Sir

lovely, very helping...

You Sir deserve more likes!!

thx

Well explained, really nice!!!! Keep it up

Awesome

Nice work ❤️❤️❤️❤️❤️❤️

Why Pressure is kept cOnstant while studying heat capacity at cOnstant vOlume?

superb

i want to help me with this calculation, "calculate the two principle molar heat capacities of oxygen if their ratio is 1.4, density of oxygen at stp is 1.43kg/m^-3, 1atm=1.01*10^5 Pa and molar mass of oxygen is 32.0*10^-3kg/mol?"

What if it's in constant volume, but you have like some sort of Turbine inside the closed system that's putting work

Thank you KHAN, but there is no sound,its better to have.

Bunyi video tidak bagus