derive boyle's law using KINETIC THEORY OF GASES
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⏩⏩ boyle's law -
it states that when temperature of certain mass of a gas is kept constant then volume of gas always vary inversely to the preasure exerted.
from kinetic theory of gases
pressure exerted by ideal gas is given by P = 1/3 mc²
but C² is directly proportional to T
PV is directly proportional to C²
therefore PV is directly proportional to T
PV = KT
is T is constant
P is inversely proportional to V
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⭐️⭐️⭐️ ANSWER ⭐️⭐️⭐️
⏩⏩ boyle's law -
it states that when temperature of certain mass of a gas is kept constant then volume of gas always vary inversely to the preasure exerted.
from kinetic theory of gases
pressure exerted by ideal gas is given by P = 1/3 mc²
but C² is directly proportional to T
PV is directly proportional to C²
therefore PV is directly proportional to T
PV = KT
is T is constant
P is inversely proportional to V
✨ hOpE iT heLpS ❗️❗️
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It states that at constant temperature, The pressure and volume of a given mass of confined gas are inversely proportional. It means when the pressure increases volume will decrease and vice-versa.
P α 1/V or PV = constant.
According to the kinetic theory of gases, the expression for pressure is given by the following equation:
P=13ρC2RmsP
=13MVC2RmsPV
=13NmC2RmsPV
=23N(12mC2Rms)
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P α 1/V or PV = constant.
According to the kinetic theory of gases, the expression for pressure is given by the following equation:
P=13ρC2RmsP
=13MVC2RmsPV
=13NmC2RmsPV
=23N(12mC2Rms)
thanks me Later ❤️
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