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Force transmitted to a confined liquid will exert the same __________ against all the containment walls.

A. Temperature
B. Texture
C. Volume
D. Pressure

Answer :

Final answer:

The correct answer is D. Pressure. Force transmitted to a confined liquid exerts the same pressure against all containment walls, which is explained by Pascal's law.

Explanation:

The force transmitted to a confined liquid will exert the same pressure against all the containment walls. This principle is known as Pascal's law, which states that a change in pressure applied to an enclosed fluid is transmitted undiminished to all portions of the fluid and to the walls of its container. This means that when pressure is applied to a liquid contained within a flexible material, that same pressure is uniformly felt throughout the entire volume of the liquid.

When considering gases, the pressure exerted by them in confined containers is due to the average number of collisions of gas molecules with the container walls per unit time. Factors such as the amount of gas, its temperature, and the volume of the container affect the pressure. For example, at constant temperature, decreasing the volume of a gas increases the pressure because the molecules collide more frequently with the container walls.

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