`lamda^(oo)` of `NH_4OH` at infinite dilution is ______`Scm^2 eq^(-1)` given `lamda^(oo) ` of `OH^(-) = 174 , lamda^(oo)` of `OH^(-) = 174 , lamda^(oo)` of Cl = 66 and `lamda^(oo)` of `NH_4Cl = 130 Scm^2eq^(-1)`

At 298 K molar conductivities at infinite dilution ( wedge_(m)^@) of NH_(4)Cl , KOH and KCl are 152.8, 272.6 and 149.8 S cm^(2)mol^(-1) respectively. The wedge_(m)^@ of NH_(4)OH in Scm^(2) mol^(-1) and % dissociation of 0.01 M NH_(4)OH with wedge_(m) =25.1 Scm^(2) mol^(-1) at the same temperature are,

The image of (2,3) w.r.t y-axis is collinear with (-1,-1) and (-4, lamda) then lamda=

Calculate the equivalent conductance of NH_4OH at infinite dilution using Kohlrausch law. Given that Lambda_(0) values of NaOH, NaCI and NH_4Cl are respectively 217.4, 108.9 and 129"ohm"^(-1) cm^(2) .

The values of equivalent conductivity at infinite dilutions for NH_4Cl , NaOH and NaCl are respectively 149.74, 248.1 and 126.4 "ohm"^(-1) cm^(2) "equi"^(-1) . The value of lambda_(eg)^(oo) of NH_4OH is

If the lines (x-2)/(1) = (y-3)/(1) = (z-4)/(lamda ) and (x-1)/(lamda ) = (y-4)/(2) = ( z -5)/(1) intersect, then

Solution of 0.1 N NH_4 OH and 0.1 N NH_4 Cl "has " P^(H) 9.25 . Then P^(K_b) of NH_4 OH is

If the pair of lines given by lamda(lamda-3)x^(2)+16xy+(lamda+1)y^(2)=0 perpendicular to each other, then lamda=