Well, honey, when that antacid tablet hits the water, it's like a party in a glass! Technically speaking, the tablet dissolving is a chemical change because the composition of the tablet is changing as it reacts with the water. So, yes, it's a chemical change, but don't worry, it's just science doing its thing.
Though antacid R) is not a pure, chemically defined compound, the answer is most expectedly: "Physical only".R) "An antacid medical tablet may contain any substance, generally a base or basic salt, which neutralizes stomach acidity"It wouldn't be nice, would it, for the stomach if a chemical reaction took place when taking the tablet with water.
It is a chemical change. Depending on the antacid, the active ingredient in the tablet (which is a base) will react with the hydrochloric acid to produce water, a salt, and sometimes carbon dioxide.
This change is a physical change because the matter is made up of the same components that it consisted of before it was broken. An example of a chemical change is the molecular rearrangement of matter like rust on a car.
This is a chemical change because the antacid tablet reacting with the hydrochloric acid results in the formation of a new substance (carbon dioxide gas) that was not present before.
When an antacid tablet dissolves in water, it undergoes a chemical change. The active ingredients in the tablet, like calcium carbonate or magnesium hydroxide, react with stomach acid (hydrochloric acid) to neutralize it, forming salt and water. This chemical reaction helps to relieve acidity in the stomach.
Though antacid R) is not a pure, chemically defined compound, the answer is most expectedly: "Physical only".R) "An antacid medical tablet may contain any substance, generally a base or basic salt, which neutralizes stomach acidity"It wouldn't be nice, would it, for the stomach if a chemical reaction took place when taking the tablet with water.
It is a chemical change. Depending on the antacid, the active ingredient in the tablet (which is a base) will react with the hydrochloric acid to produce water, a salt, and sometimes carbon dioxide.
Antiacid tablets are materials not changes; the action of tablets itself is a chemical change.
This change is a physical change because the matter is made up of the same components that it consisted of before it was broken. An example of a chemical change is the molecular rearrangement of matter like rust on a car.
Dissolving an antacid tablet in water can have an endothermic effect, meaning it absorbs heat from the surroundings and lowers the temperature of the water. This happens because the reaction between the antacid and water requires energy to break the bonds in the tablet and dissolve it.
Chemical.
This is a chemical change because the antacid tablet reacting with the hydrochloric acid results in the formation of a new substance (carbon dioxide gas) that was not present before.
When an antacid tablet dissolves in water, it undergoes a chemical change. The active ingredients in the tablet, like calcium carbonate or magnesium hydroxide, react with stomach acid (hydrochloric acid) to neutralize it, forming salt and water. This chemical reaction helps to relieve acidity in the stomach.
If the water is evaporated the obtained mass of the tablet is the same.
Yes, dissolving an Alka-Seltzer tablet is considered a chemical change because the tablet's ingredients (such as citric acid and baking soda) react when coming into contact with water to produce carbon dioxide gas, which results in the fizzing effect.
No, dissolving a fizzy tablet like vitamin C in water is a physical change. The tablet is still vitamin C molecules, just dispersed in the water. Chemical bonds in the vitamin C molecules are not broken during the dissolving process.
Yes, the tart taste of an antacid tablet is a chemical property. It is determined by the specific chemical compounds present in the tablet that interact with taste receptors on the tongue to produce the tart sensation.