The following question has multiple parts please work them in the order shown. Part A) Let's say the two masses aren't moving yet and the coefficient of static friction between them and the table is the same. If µ = 0.38 then what is the maximum value with which the combined frictional forces can fight this pull? m₁=12.5kg 0 0 Connecting rope Ff = unit Pick a direction from the options below m₂=25.6kg unit Part B) What then must be the net force on the system? Fret Pick a direction from the options below ←→ Pull 272N

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The following question has multiple parts please work them in the order shown. **Part A)** Let's say the two masses aren’t moving yet and the coefficient of static friction between them and the table is the same. If \(\mu_s = 0.38\) then what is the maximum value with which the combined frictional forces can fight this pull? - Diagram: Two blocks are shown on a horizontal surface. The block on the left is labeled as \(m_1 = 12.5 \, \text{kg}\) and the block on the right as \(m_2 = 25.6 \, \text{kg}\). A connecting rope joins them. A pull of \(272 \, \text{N}\) is applied to the right block. \[ F_f = \underline{\hspace{2em}} \, \text{unit} \] - Pick a direction from the options below: - Green arrow pointing up - Purple arrow pointing left - Brown arrow pointing right - Three red arrows of varying lengths pointing right **Part B)** What then must be the net force on the system? \[ F_\text{net} = \underline{\hspace{2em}} \, \text{unit} \] - Pick a direction from the options below: - Purple arrow pointing up - Red arrows pointing in various directions **Part C)** Then what would be the acceleration of the system? \[ a = \underline{\hspace{2em}} \, \text{unit} \] - Pick a direction from the options below: - Green arrow pointing up - Purple arrow pointing left - Brown arrow pointing right - Three red arrows of varying lengths pointing right **Part D)** Then what is the magnitude of the tension in the rope? \[ T = \underline{\hspace{2em}} \, \text{unit} \] Each part of the question requires you to calculate values based on the given conditions and then choose the correct direction from the options provided.