Which statement correctly describes the relationship between the volume of a gas and its temperature, in Kelvin, assuming pressure is held constant?(1 point) Responses The relationship is inversely proportional; as temperature increases, volume decreases in the same way. The relationship is inversely proportional; as temperature increases, volume decreases in the same way. The relationship is directly proportional; as temperature increases, volume decreases in the same way. The relationship is directly proportional; as temperature increases, volume decreases in the same way. The relationship is directly proportional; as temperature increases, volume increases in the same way. The relationship is directly proportional; as temperature increases, volume increases in the same way. The relationship is inversely proportional; as temperature increases, volume increases in the same way. The relationship is inversely proportional; as temperature increases, volume increases in the same way.

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The correct statement is: The relationship is directly proportional; as temperature increases, volume increases in the same way.

This describes Charles's Law, which states that the volume of a gas is directly proportional to its temperature (in Kelvin) when pressure is held constant.

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Which statement correctly describes the relationship between the volume of a gas and its temperature, in Kelvin, assuming pressure is held constant?(1 point) Responses The relationship is inversely proportional; as temperature increases, volume decreases in the same way. The relationship is inversely proportional; as temperature increases, volume decreases in the same way. The relationship is directly proportional; as temperature increases, volume decreases in the same way. The relationship is directly proportional; as temperature increases, volume decreases in the same way. The relationship is directly proportional; as temperature increases, volume increases in the same way. The relationship is directly proportional; as temperature increases, volume increases in the same way. The relationship is inversely proportional; as temperature increases, volume increases in the same way. The relationship is inversely proportional; as temperature increases, volume increases in the same way.

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The correct statement is: The relationship is directly proportional; as temperature increases, volume increases in the same way.

This describes Charles's Law, which states that the volume of a gas is directly proportional to its temperature (in Kelvin) when pressure is held constant.

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GPT-4o mini · Answer

The correct statement is: **The relationship is directly proportional; as temperature increases, volume increases in the same way.** This describes Charles's Law, which states that the volume of a gas is directly proportional to its temperature (in Kelvin) when pressure is held constant.