Home
Class 12
CHEMISTRY
Lambda(m)^(@)H(2)O is equal to...

`Lambda_(m)^(@)H_(2)O` is equal to

A

`Lambda_(underset(@)m(HCl))^(@)+Lambda_(m)underset (@" ")((NaOH))^(@)-Lambda_(m(underset(@)NaCl))^(@)`

B

`Lambda_(underset(@)m(HNO_(3)))+Lambda_(underset(@)m(NaNO_(3)))-Lambda_(underset(@" ")m(NaOH))`

C

`Lambda_(underset(@)m(HNO_(3)))+Lambda_(underset(" "@)m(NaOH))-Lambda_(underset(@" ")m(NaNO_(3)))`

D

`Lambda_(m(NH_(4)OH))^(@)+Lambda_(m(HCl))^(@)-Lambda_(m(NH_(4)Cl))^(@)`

Text Solution

Verified by Experts

The correct Answer is:
A, D
(a, d) are both correct options according to Kohlrauch's Law.
Promotional Banner

Topper's Solved these Questions

  • ALCOHOLS AND PHENOLS

    DINESH PUBLICATION|Exercise COMPLETION QUESTION|2 Videos

  • ALCOHOLS AND PHENOLS

    DINESH PUBLICATION|Exercise NCERT In-Text Questions|9 Videos

  • ALDEHYDES AND KETONES

    DINESH PUBLICATION|Exercise Interger|5 Videos

Similar Questions

Explore conceptually related problems

^^_(m)^(0)H_(2)O is equal to ___

Limiting molar conductivity of NH_(4)OH [i.e., Lambda_(m)^(@)(NH_(4)OH) ] is equal to:

The heat of formation (DeltaH_(f)^(@)) of H_(2)O(l) is equal to :

Lambda_((m)(NH_(4)OH))^(@) is equal to

The equilibrium constant for the reaction CaSO_(4).5H_(2)H_(2)O(s)hArr CaSO_(4).3H_(2)O(s)+2H_(2)O(g) is equal to

If tan 82(1)/(2^(@))=sqrt(lambda_(1))+sqrt(lambda_(2))+sqrt(lambda_(3))+2 then lambda_(1)+lambda_(2)+lambda_(3) is equal to

The equivalent mass of crystalline oxalic acid ( H_(2) C_(2) O_(4) . 2H_(2) O ) is equal to the equivalent weight of -