Derivation of the Lever Rule
ฝัง
- เผยแพร่เมื่อ 13 เม.ย. 2014
- In this video I derive the lever rule using a hypothetical two-component (binary) system of component A and component B by beginning with a simple mass balance. The lever rule allows us to calculate the amount of a particular phase that is present at a particular combination of temperature and composition. I derive the lever rule for the two-phase solid plus liquid region but the lever rule can be applied to any two-phase region.
All the other videos I saw only focused on applying the lever rule, but I wasn´t able to understand the math behind it, and because of this I couldn't get the concept. Now I do. Thanks a lot!
Nicely and positively explained :)
Keep up the good contribution!
absolutely amazing! Thank you!
Thank you sir...your language and way of explaining is awesome, I'm from India, but understood your lecture very well...Thanks again
thank you for this clear useful explanation
Thank you sir my confusion is short out from this video.
very clear, very simple
thank you very much
watched many video trying to learn second step 5:00 ..finally understood
Thank you! Helped me a lot
thank you so much sir this concept help me very much...........
Why lever rule is only applicable to binary phase system not tertiary phase system?
Sir can you please explain how you got the equation for Co.
I was unable to understand you.
Thanks
Helpful Sir!!!
THNX...
very helpful
Awesome video, but there is something confusing me , for C alpha and C liquid how they can be used as percentages of solid component or liquid component, as i understand the definition of C alpha or C liquid as they are compositions ratios in which at a particular temperature they are at solidus line or liquidus line , so if can any one clarify for me this confusion and thanks
Super sir
❤️
most important point : @5:00
Tejas Chaudhari yes
Awsome
Where is component b