A bath bomb is a solid sphere made of a base. When it you add it to a bath tub, it mixes with the water to create a soapy solution. If you want it to completely dissolve a large bath bomb, what might you do?
a. The increase in temperature increases the solubility of the bath bomb, dissolving it quickly.
b. The decrease in temperature decreases the solubility of the bath bomb, dissolving it quickly.
c. The increase in temperature decreases the solubility of the bath bomb, dissolving it quickly.
d. The decrease in temperature increases the solubility of the bath bomb, dissolving it quickly.
c. The increase in temperature decreases the solubility of the bath bomb, dissolving it quickly.
d. The decrease in temperature increases the solubility of the bath bomb, dissolving it quickly.
When you decrease the temperature, the solubility of most substances, including the bath bomb, increases. This means that more of the bath bomb will be able to dissolve in the water at a lower temperature, causing it to dissolve more quickly.
To determine the correct answer, we need to understand the relationship between temperature and solubility. Generally, increasing temperature increases the solubility of solid substances in a liquid solution, while decreasing temperature decreases solubility.
In this case, we want to dissolve a large bath bomb quickly, so we need to choose an option that promotes faster dissolution. Since bath bombs are typically made of solid materials, increasing temperature should increase their solubility and aid in the dissolution process.
Therefore, the correct answer is:
a. The increase in temperature increases the solubility of the bath bomb, dissolving it quickly.