5. The behaviour of a certain gas is described by the van der Waals equation 0.02T P V – 0.007 where P is pressure, V is volume and T is temperature. At T = 313 K and V = 2 l, find the rate of change of P if the temperature increases at the rate of 0.2 Ks-1 while the volume decreases at the rate of 0.3 ls-1.
5. The behaviour of a certain gas is described by the van der Waals equation 0.02T P V – 0.007 where P is pressure, V is volume and T is temperature. At T = 313 K and V = 2 l, find the rate of change of P if the temperature increases at the rate of 0.2 Ks-1 while the volume decreases at the rate of 0.3 ls-1.
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![5. The behaviour of a certain gas is described by the van der Waals equation
0.02T
2
P =
V – 0.007
V2
where P is pressure, V is volume and T is temperature. At T = 313 K and
V = 2 l, find the rate of change of P if the temperature increases at the rate
of 0.2 Ks-1 while the volume decreases at the rate of 0.3 ls-1.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1ca3e97c-b228-4d96-9dbf-4a373a6300af%2F3dc6db72-e11f-4a63-a5c3-fe8b8e5d841a%2Fxpvb32_processed.png&w=3840&q=75)
Transcribed Image Text:5. The behaviour of a certain gas is described by the van der Waals equation
0.02T
2
P =
V – 0.007
V2
where P is pressure, V is volume and T is temperature. At T = 313 K and
V = 2 l, find the rate of change of P if the temperature increases at the rate
of 0.2 Ks-1 while the volume decreases at the rate of 0.3 ls-1.
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