Concise Physical Chemistry

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c16 JWBS043-Rogers September 13, 2010 11:28 Printer Name: Yet to Come


QUANTUM MECHANICAL SYSTEMS 251

group of constants times the kinetic energyT,∇^2 is called akinetic energy operator.
The total energy of a classical system is the sum of the kinetic energy and the potential
energy,E=T+V, so the kinetic energy is the differenceT=E−Vand

∇^2 =−


8 π^2 m
h^2

(E−V)


which is one form of the famous Schrodinger equation. ̈
Other notational conveniences include the definition of “h bar,” ̄h≡h/ 2 π, which
gives

∇^2 =−


2 m
̄h^2

(E−V)


and


h ̄^2
2 m

∇^2 +V=E


The kinetic energy operator plus the potential energy operator (− ̄h

2
2 m∇

(^2) +V)
is defined as theHamiltonian operatorHˆ by analogy to the classical Hamiltonian
functionH=T+V(Chapter 15). The kinetic and potential energy operators areTˆ
andVˆ,soHˆ =Tˆ+Vˆ. (Even thoughVˆis an operator, it is often writtenV.) These
notational changes give the concise form of the Schrodinger equation: ̈


Hˆ=E


where the total energyEis ascalareigenvalue. It is distinguished from the opera-
tors by not having a circumflex notation. Clearly energy is a scalar because it has
magnitude but not direction.

16.4 QUANTUM MECHANICAL SYSTEMS


Asystemis a collection of mechanical entities governed by physical laws. If we know
thestateof a system, we know every physical property it can have. It is astonishing
but true that all this information can be known by specifying a very few fundamental
variables (degrees of freedom) and a small number of postulates.
The wave function satisfies all of the properties of a vector; therefore it is written
as a vector|〉or〈|. We shall use either the vector form|〉or the functional form
, according to which is more convenient. When it is useful to specify the variables
as degrees of freedom, we shall do that:|(x 1 ,x 2 ,...)〉or(x 1 ,x 2 ,...), but usually
the simpler notation|〉oris preferred.
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