dec151993
It indicates lower heights, which means colder air.
Energy content of the molecules of gas decreases. Energy of the system remains same. But it depends on what the conditions are too. Depends on the process of conversion: If it's isobaric, then decreases If it's isochoric, then decreases If it's isothermal, then increases If it's adiabatic, then no change
This is a nice question to work with. For a gas, the product (P x V) is proportional to 'T'. ('Pressure', 'Volume', 'Temperature') But we have to be careful, because the temperature has to be referenced to absolute-zero. For Celsius, that's -273.15. -50 C = 223.15 K 200 C = 473.15 K The change in absolute 'T' was (473.15 / 223.15) = 2.12 times as great (rounded) So the product (P x V) must also become 2.12 times as great. If 'P' remains constant, then 'V' must become 2.12 times as great = (5 x 2.12) = 10.602 liters. According to the gas law pV=nRT, given as isobaric situation Volume is directly proportional to temperature. v1/t1= v2/t2 => v2=v1*t2/t1 v2= 5*(200+273)/(-50+273) v2=5*473/223 v2= 8.663 L
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Isobaric
Isobaric
The process in which change in volume and temperature takes place at a constant pressure is called an isobaric process
constant pressure where Work is done through P(Vf-Vi)
ISOBARIC
Isobaric heating is heating by adding only heat energy while maintaining the same pressure (isobar). Isothermal heating is heating by adding only pressure and no heat energy.
isobaric process
Higher heights means warmer air.
It indicates lower heights, which means colder air.
An isobaric process is a thermodynamic-processin which the pressure stays constant: Δp = 0 The term derives from the Greek isos, meaning "equal," and barus, "heavy." The heat transferred to the system does work but also changes the internal energy of the system:
An area of low geopotential heights.