The problem is as follows:
Two bodies are shown in the figure shown below. These are at rest. It is known that the coefficients of friction between the surfaces in contact are $0.5$ and $0.3$. Find the magnitude of the maximum force $\vec{F}$ in $N$ so that the bodies are at rest. The blocks masses are follows $m=6\,kg$ and you may use $g=9.8\frac{m}{s^2}$.
The alternatives on my book are as follows:
$\begin{array}{ll} 1.&147\,N\\ 2.&176\,N\\ 3.&187\,N\\ 4.&206\,N\\ 5.&217\,N\\ \end{array}$
For this problem I'm totally lost at. How am I supposed to use the information given. I find it confusing at what are those values of the coefficients refer?. Are these the static and kinetic friction for the surface between $m$ and $3m$?. Or is it the static friction between $m$ and $3m$. If the latter is the case, which is which?. $0.5$ for between $m$ and $3m$ and $0.3$ for the block $3m$ and the floor, or is it viceversa?. Can somebody help me with a FBD for this problem?!!. I really need help with this one.
Hint.
For the small body
$$ -T + \mu_1 m g = 0 $$
For the big body
$$ -\mu_1 m g -\mu_2(m + 3m) g + F =0 $$