TABLE OF CONTENTS What is quantum mechanics and what does it do?
In very general terms, the basic problem that both classical Newtonian mechanics and quantum mechanics seek to address can be stated very simply: if the state of a dynamic system is known initially and something is done to it, how will the state of the system change with time in response?
In this chapter, we will give a brief overview of, first, how Newtonian mechanics goes about solving the problem for systems in the macroscopic world and, then, how quantum mechanics does it for systems on the atomic and subatomic scale. We will see qualitatively what the differences and similarities of the two schemes are and what the domain of applicability of each is.
To answer the question posed above systematically, we must first give a more rigorous formulation of the problem and introduce the special language and terminology (in double quotation marks) that will be used in subsequent discussions. For the macroscopic world, common sense tells us that, to begin with, we should identify the system that we are dealing with in terms of a set of static properties that do not change with time in the context of the problem. For example, the mass of an object might be a static property. The change in the state of the system is characterized by a set of dynamic variables. Knowing the initial state of the system means that we can specify the initial...
