The Effect of Temperature on Corroding Marble Chips

The effect of temperature on the corrosion of marble debris you want to know. ----------------------------- I want to investigate the effect of temperature due to corrosion of marble fragments. Scientific knowledge that may be useful in planning the survey Calcium carbonate is marble, adding hydrochloric acid generates calcium chloride, water, carbon dioxide. Its chemical formula is CaCO 3 + 2 HCl → CaCl 2 + H 2 O + CO 2. As the temperature rises, hydrogen ions in the acid move faster, so the collision increases and the collision succeeds.

In this survey we use CaCO 3 in the form of marble chips and react these chips with hydrochloric acid. The equation for this is as follows. PURPOSE: We are investigating whether the temperature affects the reaction rate of the experiment. The experiment I am doing is how temperature influences the release rate of gas when hydrochloric acid is added to calcium carbonate in the form of a marble chip. 2HCL (aq) + CaCO 3 (s)? H 2 O (I) + CO 2 (g) + CaCl 2 (aq) Preliminary experiment program, evaluation and prediction

Calcium carbonate + calcium chloride + carbon dioxide + water Ca Co + 2 HCl CaCl + Co + HO When testing the influence of particle size, marble chips, pebble marble chips, dynamic calcium carbonate three sizes Use the. For acid concentration test, we use 2 meters, 1 meter and 0.5 meter. Use 50 cc hydrochloric acid in each test to ensure accurate results. Finally, in a temperature change experiment, use a Bunsen burner to heat the acid to two temperatures. And 40i ?? then leave the acid at room temperature (about 22i ??)

The result is a mean of 1 m and 2 m, a 0.5 mol marble fragment at room temperature at the first, second and third average temperatures of room temperature, on the concentration map, compared with 0.5, Second and third average analysis. The average of m results is very different. Because the longest time to reach 10 cc of carbon dioxide, the slope of the optimum line is very gently sloping. The release of carbon dioxide starts very slowly. It took 1 cc to reach 1 cc, then speeded up and released 5 cc of carbon dioxide in 2 minutes. On the chart, the gradation of 2 minutes becomes steep. Since then, interest rates have slowed and carbon dioxide emissions have gradually stabilized.