p1.V1 / T1 = constant = p2.V2 / T2 (the 'Boyle&Gay-Lussac' Law)
250*15/100 = 500*30/ T2
T2 = 400K
Pressure and volume are inversely proportional. The pressure has increased by a factor of (500/200) = 2.5x, so the volume must decrease by 2.5x. 2500/2.5 = 1000 cubic meters.
The answer is 1000 :d
400 degrees Kelvin
its 60
since PV=nRT and we assume that the number of moles and temperature remains constant, we can assume that PV=R as R the gas constant will not change, if pressure is increased, then volume must decrease to counteract the change in pressure
Under temperature, pressure and time.
Temperature. Think about it, if the molecules start heating up they start vibrating more, need more space for themselves, expand, and ultimately increase the pressure. PS I'm a PhD chemical engineer...
It will increase? No it will decrease when the same amount of gas is held at constant temperature.
The relationship between air pressure and temperature is most frequently used in weather. When there's a high pressure system you can expect lower temperatures per higher pressure and dry air. When there's a low pressure system, its the exact opposite. You can expect humid air and warm temperatures.
The pressure will increase if the volume remains the same.
If the temperature of a system is increased, but the volume remains constant, the pressure will increase. If Pressure is increased, then temperature will increase. They are directly proportional, as shown by the combined gas law equation, (V1P1)/T1=V2P2/T2
A sample of gas occupies 1.55L at STP. What will the volume be if the pressure is increased to 50 atm while the temperature remains constant?
The pressure is reduced four times.
The relationship that exists between mass and pressure is that the absolute pressure and volume of a given mass of confined gas are inversely proportional, while the temperature remains unchanged within a closed system.
Volume
since PV=nRT and we assume that the number of moles and temperature remains constant, we can assume that PV=R as R the gas constant will not change, if pressure is increased, then volume must decrease to counteract the change in pressure
Volume increases! If pressure is kept constant then temperature and volume are directly related to each other.(Charle's law). It states that:V1/T1 = V2/T2
Under temperature, pressure and time.
Temperature. Think about it, if the molecules start heating up they start vibrating more, need more space for themselves, expand, and ultimately increase the pressure. PS I'm a PhD chemical engineer...
Yes. Since pressure and volume are inversely related, volume decreases when pressure increases (as long as temperature is constant). Consider the equation: PV=nRT, where n = moles, T is in degrees Kelvin, and R is the gas constant 0.082. Do the algebra and see how: P=nRT/V and the inverses become more easily understood.
remains constant