The Chemistry Maths Book, Second Edition

260 Chapter 9Functions of several variables

If∆xand∆yare small enough, the terms quadratic in ∆are small compared with

the linear terms, and an approximate value of∆zis

(9.16)

This result, valid for allcontinuous functions of two variables, shows that when the

changes∆xand∆yare small enough the total change in zis approximately equal to

the change in zdue to change∆xalone (the first term of the expression on the right of

(9.16)) plus the change in zdue to change∆yalone (the second term). In addition, the

accuracy of the expression improves as∆xand∆yapproach zero. As in Section 4.12,

we consider infinitesimal changes dxand dy, and define the quantity

(9.17)

as the limiting case of (9.16). This quantity is called the total differentialof zwith

respect to xand y.

4

The concept of the total differential is readily generalized for functions of any

number of variables; for a function of nvariables,

z 1 = 1 f(x

1

,x

2

,x

3

,1=,x

n

)

the total differential is

(9.18)

where, for example,∂z 2 ∂x

1

is the partial derivative with respect to variable x

1

with all

other variables,x

2

,x

3

,1=,x

n

, kept constant.

EXAMPLES 9.10Find the total differential:

(i)

∂

∂

=,

∂

∂

=− , =

∂

∂













• 
  

∂

∂







z

xy

z

y

x

y

dz

z

x

dx

z

y

yx

1

2







dy=−

y

dx

x

y

dy

1

2

z

x

y

=

dz

z

x

dx

z

x

dx

z

x

=

∂

∂

















• 
  

∂

∂

















++

∂

∂

1

1

2

2



nn

n

i

n

i

i

dx

z

x

dx

















=

∂

∂

















=

∑

1

dz

z

x

dx

z

y

dy

yx

=

∂

∂











 +

∂

∂













∆∆∆z

z

x

x

z

y

y

yx

≈

∂

∂













• 
  

∂

∂













4

The total differential and the equality of the mixed second derivatives were discovered in 1719 by Nicolaus

(II) Bernoulli (1687–1759). The nephew of Johann (I) and Jakob (John and James, or Jean et Jacques), he is not to

be confused with Nicolaus (I), his father, nor with Nicolaus (III), the son of Johann (I) and brother of Daniel and

Johann (II). It is Daniel Bernoulli (1700–1782) who wrote the Hydrodynamicaof 1738 which contains the concept

of ‘Bernoulli’s Theorem’ and a development of the kinetic theory of gases.