Solve the following questions:
Question 1: What is the relationship between the temperature of a gas and its distribution of kinetic energies? Is it possible to have particles with kinetic energies many multiples of the most common value?
Question 2: What is the relationship between the speed distribution of a gas and the mass of the particles? How does this help to explain the relative ease with which hydrogen escapes from its containers?
Question 3: Why must the relationship between pressure and volume be inverse to each other for constant temperature? In what way is the energy of the gas held constant by the restriction that temperature is held constant?
Question 4: Reducing the volume by pushing the container wall to the right through some distance is work. How is this additional energy expressed with temperature held constant? How might it be expressed if temperature were not held constant? Does the speed at which the wall is pushed have an effect? If so, what is that effect?
I need expert help to solve above question.