[1 minute = 60 seconds] A. Nature of Reactants A.1 The Affect of Metal Degradation Based on Acid Type Four acids are put into vary test tubes and magnesium metal [Mg] is dropped into each test tube and the time it takes for the metal to completely dissolve is measured: Lab Data Test Tube-1 (H,SO, 3M) time: 3.68seconds Test Tube-2 (HC1 6M) time: 4.25seconds Test Tube-3 (CH COOH 6M) time: 17.58 minutes/seconds Test Tube-4 (H3PO.): 5.54 minutes/seconds %3D Question-1: Calculate the reaction rates for each tube utilizing the equation (use the concentration of each respective acid): Rate= A[X]/time(s)

I know these are two parts but they count as one question. 

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**Factors Affecting Reaction Rates** **[1 minute = 60 seconds]** **A. Nature of Reactants** **A.1 The Effect of Metal Degradation Based on Acid Type** Four acids are put into varying test tubes and magnesium metal [Mg] is dropped into each test tube. The time it takes for the metal to completely dissolve is measured. **Lab Data** - **Test Tube-1 (H₂SO₄ 6M)** time: 3.68 seconds - **Test Tube-2 (HCl 6M)** time: 4.25 seconds - **Test Tube-3 (CH₃COOH 6M)** time: 17.58 minutes/seconds - **Test Tube-4 (H₃PO₄)** 5.54 minutes/seconds --- **Question-1:** Calculate the reaction rates for each tube utilizing the equation (use the concentration of each respective acid): \[ \text{Rate} = \Delta [\text{X}]/\text{time(s)} \] **Question-2:** Based on the question-1 calculations, which acid provides the highest reaction rate?