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like y1 and x1 are mole fractions that i got
but how is vp of component in solution equal to these both i dont get it
@Moderator can u tag i think bot is down
thanks
wait
it's not down
its some err it encountered
@ᴘɪᴄᴄʜɪ | 🎧 🎶 pls look into this
:/
how are we reaching the rate limits :c
ae bhyi this gives me chakkrr
tag kardo aap hi
@Dexter
how do u remember these tags LOL
yaar tag karke jao maat explain bhi kardo😭
xA is the molefraction the componenet A in the solution
yA is the molefraction of the Component in the Vapours
ek vapour phase ki hai ek liq phase ki
to usme alag hoga?
matalb ki xa jo sol me hai vo hai
aur ya jo hai vo vapour me hai aisa?
yes
yes
ha like Xa hai wo mole fraction of A hai in Liq phase
and Ya hai wo mole fraction of A hai in Vapour Phase
aahh ok then lemme write this down
+solved @Tanish @Gamertug
ohh bott.
,tex Y_a = \frac{X_a Pa^\circ}{P{solution}}
Tanish
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Doubt puch puch ke yaad ho gaya hai
Mujhe samajh hi nahi aaya kehna kya chahati hai aap
offoooo
Dayummm main dekhta hu this weekend
ah yes
first one is for liquid phase, mole fraction (x1) liquid phase ka likha jaata hai
that's Raoult's law
but we can't use that to find for gaseous phase, so we use the second equation
second equation is just dalton wala partial pressure
mole fraction in gaseous phase (y1) = partial pressure of component (p1) / total pressure
got it
thnkss
+solved @Nimboi
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