cmi-entrance 2013 QA4

cmi-entrance · India · pgmath 4 marks Invariant lines and eigenvalues and vectors True/false or multiple-choice on spectral properties
Let $A : \mathbb { R } ^ { 2 } \rightarrow \mathbb { R } ^ { 2 }$ be a linear transformation with eigenvalues $\frac { 2 } { 3 }$ and $\frac { 9 } { 5 }$. Then, there exists a non-zero vector $v \in \mathbb { R } ^ { 2 }$ such that
(a) $\| A v \| > 2 \| v \|$;
(b) $\| A v \| < \frac { 1 } { 2 } \| v \|$;
(c) $\| A v \| = \| v \|$;
(d) $A v = 0$; 
Let $A : \mathbb { R } ^ { 2 } \rightarrow \mathbb { R } ^ { 2 }$ be a linear transformation with eigenvalues $\frac { 2 } { 3 }$ and $\frac { 9 } { 5 }$. Then, there exists a non-zero vector $v \in \mathbb { R } ^ { 2 }$ such that\\
(a) $\| A v \| > 2 \| v \|$;\\
(b) $\| A v \| < \frac { 1 } { 2 } \| v \|$;\\
(c) $\| A v \| = \| v \|$;\\
(d) $A v = 0$;
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