11. COURSE GRADING: Your course grade is based on the score
... ASSIGNMENTS: The course syllabus is attached to this course policy handout. The course syllabus provides a detailed listing of the topics to be covered in each lecture, along with the reading and homework assignments for the entire semester. As basic preparation for each lecture, you should read the ...
... ASSIGNMENTS: The course syllabus is attached to this course policy handout. The course syllabus provides a detailed listing of the topics to be covered in each lecture, along with the reading and homework assignments for the entire semester. As basic preparation for each lecture, you should read the ...
89essay
... 1. (a) State the main assumptions of the kinetic theory as applied to an ideal gas, briefly explaining the pressure exerted by a gas on its container (no mathematical derivation expected). (5 marks) (b) Point out the main observed differences in the behaviour of real gases compared with an ideal gas ...
... 1. (a) State the main assumptions of the kinetic theory as applied to an ideal gas, briefly explaining the pressure exerted by a gas on its container (no mathematical derivation expected). (5 marks) (b) Point out the main observed differences in the behaviour of real gases compared with an ideal gas ...
Wave equation in fluids
... temperature (the molecules have a higher average kinetic energy -> a greater push on their surroundings) for constant temperature, pressure increases with density (the more molecules per unit volume, the greater the push exerted by collisions) for constant pressure, temperature and density are inver ...
... temperature (the molecules have a higher average kinetic energy -> a greater push on their surroundings) for constant temperature, pressure increases with density (the more molecules per unit volume, the greater the push exerted by collisions) for constant pressure, temperature and density are inver ...
Review of Chemical Thermodynamics 7
... Gis a function of the equilibrium constant for the reaction, the gas constant R (1.98•10-3 kcal/mol-deg), and the absolute temperature (in K). Remember that T(K) = T(C) + 273. Some politically correct biochemists use kJ/mol rather than kcal/mol. The conversion is relatively painless as 1 kcal/ ...
... Gis a function of the equilibrium constant for the reaction, the gas constant R (1.98•10-3 kcal/mol-deg), and the absolute temperature (in K). Remember that T(K) = T(C) + 273. Some politically correct biochemists use kJ/mol rather than kcal/mol. The conversion is relatively painless as 1 kcal/ ...
