(a) In order to add the manganese dioxide the bung had to be taken out of the conical flask and replaced quickly. This altered the pressure in the apparatus and affected the initial reading on the syringe.
Suggest a simple modification to the apparatus which would allow the manganese dioxide to be added to the hydrogen peroxide solution without the bung having to be removed. [1]

(b) Manganese dioxide is a black powder and hydrogen peroxide solution is a colourless liquid. Describe what will be observed inside the flask, before, during and after the reaction involving manganese dioxide has taken place. [2]

(c) The quantitative results obtained are shown graphically below.

(c) Determine the rate of reaction after one minute when 1.00 g of manganese dioxide had been used as a catalyst. [1]

From the gradient (shown on the graph below) the rate of reaction after one minute = 36 ÷ 1.0 = 36 cm³ min⁻¹. [1]

(d) Suggest why the rate of the reaction does not increase by a factor of ten when the mass of catalyst added is increased tenfold from 0.100 g to 1.00 g. [1]

(e) Assuming that the total volume of oxygen evolved by the time the reaction has gone to completion is 100 cm³ (measured at STP), calculate the amount (in mol) of hydrogen peroxide present initially. [1]