A) \[E({{K}_{\gamma }})<E({{K}_{\beta }})<E({{K}_{\alpha }})\]
B) \[E({{K}_{\alpha }})<E({{L}_{\beta }})<E({{M}_{\alpha }})\]
C) \[\lambda ({{K}_{\gamma }})<\lambda ({{K}_{\beta }})<\lambda ({{K}_{\alpha }})\]
D) \[\lambda ({{M}_{\alpha }})<\lambda ({{L}_{\alpha }})<\lambda ({{K}_{\alpha }})\]
Correct Answer: C
Solution :
As \[E({{K}_{\gamma }})>E({{K}_{\beta }})>E({{E}_{\alpha }})\]\[\Rightarrow \]\[\lambda ({{K}_{\gamma }})<\lambda ({{K}_{\beta }})<\lambda ({{K}_{\alpha }})\]You need to login to perform this action.
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