Let B(0, 2) = {(x, y) ∈ ℝ² : x² + y² < 4}, and ∂B denote the boundary of B(0, 2). Assume (α, β) ≠ (0, 0), k ∈ ℝ, and u is any solution to 

\(\rm \left\{\begin{matrix}-\Delta u=0& \rm in\:\:B(0, 2)\\\ \alpha u(x, y)+β\frac{∂ u}{∂ \nu}(x, y)=1+(x^2+y^2)k&\rm on\ ∂ B\end{matrix}\right.\)

where v(x, y) is the unit outward normal to B(0, 2) at (x, y) ∈ ∂B. Consider the following statements: 

S₁ : If β = 0 then there exists a (x₀, y₀) € B(0, 2) such that |u(x₀, y₀)| = \(\rm \frac{|1+4k|}{|α|}\)

S₂ : If α  = 0, then k = \(-\frac{1}{4}\)

Then