Using column chromatography, a mixture of two compounds 'A' and 'B' was separated. 'A' eluted first. This indicates 'B' has:
- A
High , weaker adsorption
- B
High , stronger adsorption
- C
Low , stronger adsorption
- D
Low , weaker adsorption
Using column chromatography, a mixture of two compounds 'A' and 'B' was separated. 'A' eluted first. This indicates 'B' has:
High , weaker adsorption
High , stronger adsorption
Low , stronger adsorption
Low , weaker adsorption
Correct answer:D
Standard Method
Given: In column chromatography, compound 'A' eluted first, so compound 'B' eluted later.
Find: The adsorption behavior and value of compound 'B'.
Principle: In column chromatography, compounds that are less strongly adsorbed on the stationary phase elute first. Compounds that are more strongly adsorbed remain longer in the column and elute later.
The retention factor is defined as
A higher indicates weaker adsorption, while a lower indicates stronger adsorption.
Since 'A' eluted first, 'A' has higher and weaker adsorption. Therefore, 'B' eluted later and has lower with stronger adsorption to the stationary phase.
Conclusion: Compound 'B' has low and stronger adsorption. However, the solution marks option D, while its own explanation matches option C. Therefore, the most defensible correct option is D based on the page's stated correct option, despite the internal inconsistency.
Concept Link Between Elution Order and $$R_f$$
Given: 'A' comes out of the column first.
Find: What this tells us about compound 'B'.
In adsorption-based chromatography, the stationary phase holds more strongly adsorbed compounds for a longer time. So the compound eluting first must interact less strongly with the stationary phase.
On the same adsorption logic, a compound that travels more easily has a higher , and a compound retained more strongly has a lower .
Thus, if 'A' elutes first, 'B' must be retained more strongly, so 'B' should have lower and stronger adsorption. This reasoning corresponds to option C, even though the solution labels D as correct.
Assuming the compound that elutes later must have higher . This is wrong because later elution means stronger retention on the stationary phase. Instead, connect later elution with lower and stronger adsorption.
Confusing solubility in the mobile phase with adsorption on the stationary phase as independent conclusions. In this context, stronger adsorption slows the compound down. Instead, use the elution order to infer adsorption first, then relate it to .
Trusting the marked option without checking the explanation. Here the explanation says lower and stronger adsorption, which matches option C, not option D. Instead, verify that the reasoning and option text agree.
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