Conductivity of water (in $$\Omega ^{-1}\,cm^{-1}$$) is
A
0.4
B
0.0004
C
0.00004
D
0.04
Open in App
Solution
Verified by Toppr
Correct option is D. 0.00004
Was this answer helpful?
0
Similar Questions
Q1
Which of the following options are correct for solubility and solubility product of CO2[Fe(CN)6] in water at 25∘. Conductivity of a saturated solution of CO2[Fe(CN)6] is 2.06×10−6Ω−1cm−1 and that of water used is 4.1×10−7Ω−1cm−1.
The ionic molar conductivities of Co2+andFe(CN)4−6 are 86.0Ω−1cm2mol−1and444.0Ω−1cm2mol−1, respectively.
View Solution
Q2
For HCl solution, at 25∘C the equivalent conductivity at infinte dilution is 425Ω−1cm−1. The specific conductance of a solution of HCl is 3.825Ω−1cm−1. If the apparent degree of dissosiation is 90%. The normality of solution is:
View Solution
Q3
The specific conductance of a saturated solution of AgCl at 25∘C is 3.55×10−6Ω−1cm−1 and that of water used for preparing the solution is 1.60×10−6Ω−1cm−1. What is the solubility product of AgCl? (Λ∞(AgCl)=150.0Ω−1cm2eqv−1)
View Solution
Q4
The measured resistance of a conductance cell was 100Ω. If the specific conductance in ohm−1cm−1 is 125×10−x, then what is the value of x?
Given: (Cell constant =1.25cm−1)
View Solution
Q5
What is the ionization constant of crotonic acid if the conductivity of a 0.001M crotonic acid solution is 3.83×10−5Ω−1cm−1?
Limiting molar conductivities at 25oC: HCl=426Ω−1cm2mol−1 NaCl=126Ω−1cm2mol−1 NaC(sodium crotonate)=83Ω−1cm2mol−1.
(Crotonate ion is represented by C−)