i. State the assumption of the kinetic theory of a gas that addresses molecular movement. ii. Given that: 3/2 kT = ½ m, where T = molecular temperature in kelvin and = molecular mean-square speed, sketch a general graph of T versus molecular root means square speed (V). iii. Given that for an ideal gas: PV = nRT, sketch a general graph of P versus T.
i. State the assumption of the kinetic theory of a gas that addresses molecular movement. ii. Given that: 3/2 kT = ½ m, where T = molecular temperature in kelvin and = molecular mean-square speed, sketch a general graph of T versus molecular root means square speed (V). iii. Given that for an ideal gas: PV = nRT, sketch a general graph of P versus T.
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![B. i.
State the assumption of the kinetic theory of a gas that addresses
molecular movement.
ii.
Given that: 3/2 kT = ½ m<c²>, where T = molecular temperature
in kelvin and <c²> = molecular mean-square speed, sketch a general
graph of T versus molecular root means square speed (c²>).
jii.
Given that for an ideal gas: PV = nRT, sketch a general graph of P versus T.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F292e9c50-7804-4c6e-82b3-b960e7cd57c7%2F3cecdb92-cbfd-4f58-9752-32c05986fb6d%2Fs3l7zd_processed.jpeg&w=3840&q=75)
Transcribed Image Text:B. i.
State the assumption of the kinetic theory of a gas that addresses
molecular movement.
ii.
Given that: 3/2 kT = ½ m<c²>, where T = molecular temperature
in kelvin and <c²> = molecular mean-square speed, sketch a general
graph of T versus molecular root means square speed (c²>).
jii.
Given that for an ideal gas: PV = nRT, sketch a general graph of P versus T.
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