Marble Chips And Acid

Investigating the rate of reaction between marble chips calcium carbonate and hydrochloric acid aim.

Marble chips and acid.

This process is based on random particle movement. Marble chips react with dilute hydrochloric acid to produce carbon dioxide gas. This variable changes the rate of reaction by adding more acid in concentration than the water then the reaction will take place quicker because there is more acid to react with the marble chips and if you add more water then the reaction will take longer because there is less acid to react with the marble chips. Secondly weight out 3 grams of marble chips for each concentration 3.

Dilute sulphuric acid is made to react with marble chips 2 see answers mahfoozfarhan4 mahfoozfarhan4 so when calcium carbonate reacts with sulphuric acid it forms water carbon dioxide and calcium sulphate. The rate of this reaction can be changed by changing the size of the marble chips. Marble chips and hydrochloric acid planning aim to find if changing the concentration of an acid will increase or decrease the rate of the reaction when marble is dissolved in hydrochloric acid. In the investigation i am going to find out how the surface area affects the rate of reaction by measuring the amount of gas produced and weight loss in a reaction between small large pieces of marble chips calcium carbonate and hydrochloric acid per minute.

Calcium carbonates which are marble chips react with hydrochloric acid to give out calcium chloride water and carbon dioxide. Pour the acid into the conical flask and add the marble chips 5. With the equation caco3 2hcl cacl2 h2o co2 hypotheses a reaction occurs when particles collide. First you measure out 25cm3 of hydrochloric acid 2.

Describe how you could investigate. Being alkaline it reacts with hydrochloric acid to produce calcium chloride water and carbon dioxide. Marble chips are mostly made up of calcium carbonate which is a alkaline compound. The reaction between sulfuric acid and calcium carbonate is somewhat similar to the reaction with sodium bicarbonate way carbon dioxide.