The formula to find the beat frequency is ${\mathit{f}}_{\mathbf{b}\mathbf{e}\mathbf{a}\mathbf{t}}\mathbf{=}\mathbf{|}{\mathit{f}}_{\mathbf{1}}\mathbf{-}{\mathit{f}}_{\mathbf{2}}\mathbf{|}$.

Given value of beat frequency is 2Hz. Convert it into rpm.

$$\begin{gathered} f_{beat}=2Hz\times \frac{60rpm}{1Hz} \\ {f}_{beat}=120rpm \end{gathered}$$

Out of two frequencies, one frequency is given, that is, $f_1=575rpm$.

Now, there will be two cases. Either $f_1-f_2=120rpm$ or $f_1-f_2=-120rpm$. So, we will get two values of $f_2$.

• $$\begin{gathered} f_2=575rpm-120rpm \\ {f}_2=455rpm \end{gathered}$$
  
• $$\begin{gathered} f_2=575rpm+120rpm \\ {f}_2=695rpm \end{gathered}$$
  

Increasing the speed of the propeller means increasing the $f_2$. In the first case, as $f_2$ increases, the beat frequency decreases. But in the second case, as $f_2$ increases, the beat frequency also increases.

So, the correct frequency of the second propeller is $f_2=695rpm$.