Physical Chemistry Third Edition

(C. Jardin) #1

14.2 Classical Mechanics 621


14.2 Classical Mechanics

According to classical mechanics, the state of a system is specified by giving the
position and velocity of every particle in the system. Consider a single particle without
any internal structure so that it cannot rotate or vibrate. If it can move in three dimen-
sions we can specify its position by the three Cartesian coordinatesx,y, andz. These
three coordinates are equivalent to aposition vectorthat reaches from the origin of
coordinates to the location of the particle. Any quantity that has direction as well as
magnitude is a vector. We denote a vector by a letter in boldface type and we denote this
position vector byr. It can also be denoted by a letter with an arrow above it, as in−→r,
by a letter with a wavy underscore, as in. The Cartesian coordinatesx,y, andzare
called theCartesian componentsof the position vectorr. A vector can also be denoted
by listing its three Cartesian components inside parentheses, as in (x,y,z). Any quan-
tity that has both magnitude and direction is a vector. A quantity that has no particular
direction but can be positive, negative, or zero, is called ascalar. Appendix B contains
an elementary introduction to vectors, and additional information can be found in the
references of note number 1.
The velocity of the particle is the time derivative of its position vector and is a vector
vwith the Cartesian componentsνx,νy, andνz:

νx
dx
dt

νy
dy
dt

νz
dz
dt

(14.2-1a)

These three equations can be represented by a single vector equation

v

dr
dt

(14.2-1b)

Thespeedof a particle is the magnitude of the velocity, given by

ν|v|


ν^2 x+ν^2 y+ν^2 z (14.2-2)

which is a three-dimensional version of the theorem of Pythagoras. The kinetic energy
of the particle is defined by

K ^12 mv^2 ^12 mv^2 (v^2 x+v^2 y+v^2 z) (14.2-3)

wheremis the mass of the particle. The kinetic energy is an example of a function of
the variables that specify the state of the particle. A function of these variables is called
astate function.

Units of Measurement


In using a formula such as that of Eq. (14.2-3), one must use consistent units or risk
getting the wrong answer. The set of units that chemists and physicists now use is the
international system of units,orSI units. The letters SI stand forSystème Internationale,
the French name for the set of units. In this system there are seven base units. The unit
of length is themeter(m). The unit of mass is thekilogram(kg). The unit of time is
thesecond(s). The unit of temperature is thekelvin(K). The unit of electric current
is theampere(A). The unit of luminous intensity is thecandela(cd). The unit for the
amount of a substance is themole(mol).
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