For strong electrolyte increases slowly with dilution and can be represented by the equation:
Molar conductivity values of the solutions of strong electrolyte AB at are given below:
The value of constant based on the above data [in ] unit is:
For strong electrolyte increases slowly with dilution and can be represented by the equation:
Molar conductivity values of the solutions of strong electrolyte AB at are given below:
The value of constant based on the above data [in ] unit is:
Correct answer:4
Standard Method
Given: For a strong electrolyte,
The given data are molar conductivity values at different concentrations.
Find: The value of constant .
Concept: For strong electrolytes, a plot of versus is linear. From
the magnitude of the slope is .
Step 1: Tabulate values of .
Step 2: Use two data points to calculate the slope. Take and .
So,
Hence,
Step 3: Verify with another pair of points. Between and ,
Conclude: Therefore, the constant is , so the numerical answer is 4.
Direct Difference Method
Given:
Find: The value of .
Because the relation is linear in , any two points can be used directly. Convert only the endpoint concentrations:
Now compare the corresponding molar conductivities:
So,
This works because changes linearly with , so the slope remains constant.
Conclude: The numerical answer is 4.
Using instead of for the slope. This is incorrect because the equation is linear in , not in concentration directly. First convert each concentration to and then calculate the slope.
Including the negative sign of the slope in the final value of . In , the slope is , so the constant itself is taken as the positive magnitude.
Taking inconsistent differences for conductivity and from different data pairs. This gives an invalid slope. Use both changes from the same two chosen points.
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