grandes-ecoles 2013 QI.B.2

grandes-ecoles · France · centrale-maths1__mp Differential equations Higher-Order and Special DEs (Proof/Theory)

For $n \in \mathbb { Z }$, we denote by $\mathcal { E } _ { n }$ the space of functions $f$ in $\mathcal { C } ^ { 2 } \left( \mathbb { R } _ { + } ^ { * } , \mathbb { C } \right)$ such that $$\forall t \in \mathbb { R } _ { + } ^ { * } , \quad t ^ { 2 } f ^ { \prime \prime } ( t ) + t f ^ { \prime } ( t ) - n ^ { 2 } f ( t ) = 0$$
Determine $\mathcal { E } _ { n }$ for $n \in \mathbb { Z }$. We will discuss separately the case $n = 0$.

For $n \in \mathbb { Z }$, we denote by $\mathcal { E } _ { n }$ the space of functions $f$ in $\mathcal { C } ^ { 2 } \left( \mathbb { R } _ { + } ^ { * } , \mathbb { C } \right)$ such that
$$\forall t \in \mathbb { R } _ { + } ^ { * } , \quad t ^ { 2 } f ^ { \prime \prime } ( t ) + t f ^ { \prime } ( t ) - n ^ { 2 } f ( t ) = 0$$

Determine $\mathcal { E } _ { n }$ for $n \in \mathbb { Z }$. We will discuss separately the case $n = 0$.

Paper Questions

QI.A.1 QI.A.2 QI.B.1 QI.B.2 QI.C.1 QI.C.2 QI.C.3 QI.D.1 QI.D.2 QII.A QII.B QII.C QII.D QII.E QII.F QIII.A QIII.B QIII.C QIII.D QIV.A QIV.B QIV.C