Experiment 1: Solubility of substances in water.

Observations:

kerosene -> insoluble in

alcohol -> dissolves

NaCl -> dissolves

Conclusion:

Water is a polar solvent nature. Among the substances used in doświadczeniunie, well dissolve NaCl and alcohol, while the oil is practically insoluble.

 

Experiment 2: Study of factors affecting the dissolution rate.

Observations:

Temperature -> The substance is more soluble in a tube heated, but worse in a test tube, which was room temperature.

Mixing -> The substance is more soluble in the test tube in which the content was mixed, but worse in a test tube, in which content rostała intact.

Fragmentation of the substance -> The substance is more soluble in the test tube in which the content was fragmented, but worse in a test tube, in which the contents were intact.

Conclusion:

The dissolution rate of chemicals in water affected by temperature, physical state, and stirring. To increase the speed rozpusczania chemical in water it should be: mix, crush and heat.

 

Experiment 3: Effects of heat accompanying the dissolution of the substance in water.

Observations: The initial temperature / final temp

KNO3 21 degrees 14 degrees

NaOH, 21 degrees 32 degrees

H2SO4 21 degrees 45 degrees

Conclusion:

The process of dissolution is accompanied by thermal effects:

a) exothermic, which is the rising temperature. The experiment this process was the dissolution of NaOH and H2SO4.

b) endothermic, which is the temperature drop. In a process that byo doświadczenu dissolving KNO3.

 

Experience 4: Prepare a solution of defined concentration percentage.

Cp = 10%

Knowing that a solution should be prepared 300g, transform the formula for the concentration percentages:

Cp = ms / mr * 100%

so, to calculate the mass of sodium chloride, which must weigh:

ms = Cp * mr/100%

Calculates the amount of water needed to prepare 300g of solution:

Reg m = mr-ms

 

Knowing that the density of water is 1g/cm3, the need for solution 270 cm3 of water.

Checking the correctness of the concentration of the prepared solution based on the reading density. The density of the reconstituted solution is 1.07 g/cm3

 

According to the data contained in the table of densities of solutions of NaCl, the density of my solution should be 1.07 g/cm3.

Experiment 1: Solubility of substances in water.

Observations:

kerosene -> insoluble in

alcohol -> dissolves

NaCl -> dissolves

Conclusion:

Water is a polar solvent nature. Among the substances used in doświadczeniunie, well dissolve NaCl and alcohol, while the oil is practically insoluble.



Experiment 2: Study of factors affecting the dissolution rate.

Observations:

Temperature -> The substance is more soluble in a tube heated, but worse in a test tube, which was room temperature.

Mixing -> The substance is more soluble in the test tube in which the content was mixed, but worse in a test tube, in which content rostała intact.

Fragmentation of the substance -> The substance is more soluble in the test tube in which the content was fragmented, but worse in a test tube, in which the contents were intact.

Conclusion:

The dissolution rate of chemicals in the water affects the temperature, physical state, and stirring. To increase the speed rozpusczania chemical in water it should be: mix, crush and heat.



Experiment 3: Effects of heat accompanying the dissolution of the substance in water.

Observations: The initial temperature / final temp

KNO3 21 degrees 14 degrees

NaOH, 21 degrees 32 degrees

H2SO4 21 degrees 45 degrees

Conclusion:

The process of dissolution is accompanied by thermal effects:

a) exothermic, which is the rising temperature. The experiment this process was the dissolution of NaOH and H2SO4.

b) endothermic, which is the temperature drop. In a process that byo doświadczenu dissolving KNO3.



Experience 4: Prepare a solution of defined concentration percentage.

Cp = 10%

Knowing that a solution should be prepared 300g, transform the formula for the concentration percentages:

Cp = ms / mr * 100%

so, to calculate the mass of sodium chloride, which must weigh:

ms = Cp * mr/100%

Calculates the amount of water needed to prepare 300g of solution:

Reg m = mr-ms



Knowing that the density of water is 1g/cm3, the need for solution 270 cm3 of water.

Checking the correctness of the concentration of the prepared solution based on the reading density. The density of the reconstituted solution is 1.07 g/cm3



According to the data contained in the table of densities of solutions of NaCl, the density of my solution should be 1.07 g/cm3.