The Chemistry Maths Book, Second Edition

4.5 Differentiation from first principles 101

EXAMPLE 4.6Find from first principles for.

(1)

(2) (3)

0 Exercise 20

EXAMPLE 4.7Differentiate.

(1)

(making use of the relation (a 1 − 1 b)(a 1 + 1 b) 1 = 1 a

2

1 − 1 b

2

).

(2) (3)

0 Exercise 21

EXAMPLE 4.8Differentiatee

x

.

(1)y 1 = 1 e

x

, y 1 + 1 ∆y 1 = 1 e

x+∆x

1 = 1 e

x

1 × 1 e

∆x

From the definition of the exponential function as an infinite series, equation

(3.31),

Therefore,

=+eex+ + +

xx

xx

(

() ()

∆ )

∆∆

23

26



yye x

xx

x

+=×++ + +∆∆

∆∆

(

() ()

1 )

26

23



ex

xx

∆x

∆

∆∆

=+ + 1 + +

23

23

()

!

()

!



dy

dx

y

x

x

x

=











=

→

lim

∆

∆

0 ∆

1

2

∆

∆

∆

y

x

xx x

=

++

1

=

+−

++

=

++

()xxx

xx x

x

xx x

∆

∆

∆

∆

∆∆

∆∆

∆

yxxx

xxxxx

xx x

=+− =

+− × + +

++

()( )

y x yy xx=+=+, ∆∆

x

dy

dx

y

x

x

x

=

∆

∆













=−

→

lim

∆ 0

1

2

∆

∆∆

y

xxx x

=

−

• 
  

1

()

∆∆

∆

∆

∆

yfx x fx

xxx

x

xx x

=+− =

• 
  

−=

−

• 
  

()()

()

11

yfx

x

yyfxx

xx

==,+=+=

• 
  

() ( )

11

∆∆

∆

y

x

=

dy 1

dx