4. a student is doing experiments with co2(g). originally, a sample of the gas is in a rigid container at 299 k and 0.70 atm. the student increases the temperature of the co2(g) in the container to 425 k. (a) describe the effect of raising the temperature on the motion of the co2(g) molecules. (b) calculate the pressure of the co2(g) in the container at 425 k. (c) in terms of kinetic molecular theory, briefly explain why the pressure of the co2(g) in the container changes as it is heated to 425 k. (d) the student measures the actual pressure of the co2(g) in the container at 425 k and observes that it is less than the pressure predicted by the ideal gas law. explain this observation.