The Significance of Physical Change in Chemistry Experiments

What is the significance of the physical change?

The student mixes 20.0g of white KCl crystals with distilled water in a beaker. After several days, all of the water evaporates and white crystals are found in the beaker. Which of the following pieces of experimental evidence would best help the student to confirm that a new compound had not been made and that only a physical change occurred?

a- The solution does not change color after stirring.

b- The KCl crystals are no longer visible after mixing with water.

c- There is a temperature change in the solution during the dissolving process.

d- After the water has evaporated, the white crystals in the beaker have a mass of 20.0g.

Answer:

d- After the water has evaporated, the white crystals in the beaker have a mass of 20.0g.

The significance of physical change in chemistry experiments is crucial in determining whether a new compound has been formed or if only a physical change has occurred. In the given scenario, the student mixes white KCl crystals with distilled water, resulting in a clear solution with no visible crystals. However, after the water evaporates, white crystals are found in the beaker with a mass of 20.0g.

Understanding the significance of physical change helps the student differentiate between changes in the physical properties of substances, such as size, shape, or state, without altering their chemical composition. In this case, the presence of white crystals with the same mass as the initial KCl crystals indicates that only a physical change, not a chemical change, has occurred.

Physical changes are reversible processes that do not involve the formation of new substances. They include changes in state (solid, liquid, gas), shape, size, or physical appearance. In contrast, chemical changes involve the formation of new substances with different chemical properties.

Therefore, recognizing the significance of physical change in chemistry experiments allows students to interpret experimental results accurately and draw conclusions about the nature of the changes observed. It also provides insights into the behavior of substances under different conditions and their transformations during physical processes.

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