Answer
$\frac{1}{3}$
Work Step by Step
Let $T_{1}$ be the tension between $m_{1}$ and $m_{3}$.
Let $T_{2}$ be the tension between $m_{3}$ and $m_{2}$.
So, $T_{1}=m_{1}g=0.25\times9.8=2.45N$
$T_{2}=m_{2}g=0.5\times9.8=4.9N$
Since, $T_{2}>T_{1}$ force of friction on $m_{3}$ acts towards left.
So, $T_{1}+f=T_{2}$
$T_{1}+static\, friction \,coefficient\times m_{3}g=T_{2}$
Static friction coefficient $=\frac{T_{2}-T_{1}}{m_{3}g}=\frac{4.9-2.45}{0.75\times9.8}=\frac{1}{3}$
