Calculus I: exponential function
logarithmic function and continuity

1. Limits: exponential &
logarithmic functions

1.1. Definitions

All the rules of limits that apply to algebraic functions apply also to the exponential functions and logarithmic functions. In addition, we have:

With a and c real numbers or infinite (± ∞),
b positive real number and not equal to 1,

If lim f(x) = c
x → a

Then

lim b^f(x) = b^{lim f(x)} = b^c
x → a

and if c > 0

lim log_b f(x) = log_b (lim f(x)) = log_b c
x → a

1.2. Examples

a) lim 3^{2x - 2} = 3^{- 2} = 1/9
x → 0

b) lim log(4 x - 1) = log 3
x → + 1

c) lim e^3x = e^{- ∞} = 0
x → - ∞

d) lim (1/3)^x = (1/3)^{+ ∞} = 1^{+ ∞}/3^{+ ∞}
x → + ∞
= (undetermined) /∞
Let's write:
y = (1/3)^x
so
ln y = x ln (1/3) = - x ln 3
Then:
lim ln y = lim (- x ln 3) = - ∞
x → + ∞
Therefore:
e^{lim ln y} = lim e^{ln y} = lim y = e^{- ∞} = 0
x → + ∞
Hence
lim (1/3)^x = 0
x → + ∞

e) lim x (1 - log (4x)) = ∞ (- ∞) = - ∞
x → + ∞

f) lim (e^x)/(e^x + 1) = 1
x → + ∞

g) lim f(x) = c
x → a

If c > 0, Then
lim log_bf(x)
x → a

If c < 0, Then
lim log_bf(x)
x → a

If c = 0, Then
lim log_bf(x) = log_b lim f(x) = log_b 0⁺
x → a
With
log_b 0⁺ = - ∞ if b > 1, and
log_b 0⁺ = + ∞ if 0 > b < 1,

Recall
if 0 < b < 1 we can write b = 1/B with B > 1
so log_B(x) = log_b(x) log_B(b)
(changing base formula)

We have : log_B(b) = log_B(1/B) = - log_B(B) = - 1
so
log_b(x) = - log_1/b(x)

(1/b) > 1, then:
lim log_1/b 0⁺ = - ∞
x → a

so lim log_b 0⁺ = + ∞
x → a

For any b > 0

lim log_b 0
x → a
Because
lim log_b 0^-
x → a

2. Continuity: exponential &
logarithmic functions

2.1. Definitions

If the function g(x) is continuous on an interval I, then

a) The fonction f(x) = log_b g(x) is continuous on the interval I if g(x) > 0.

b) The function f(x) = b^g(x) is continuous on the interval I.

2.2. Examples

a)
The polynomial function g(x) = 3x - 3 is continouous on R. It is positive when x > 1, so

f(x) = ln (3x - 3) is continuous on the interval R with the condition x > 1, that is on the interval ]1, + ∞[

b)
f(x) = e^{(3x - 3)} is continuous on the interval R.

c)
f(x) = log ((x + 1)/(x - 1))
is continuous on the interval where (x + 1)/(x - 1) is
positive, that is on I = ]- ∞, -1[ U ]+1, + ∞[

3. Exercises

1)
What is
lim (1 + x)^1/x = ?
x → 0

lim (1 + x)^1/x = 1/0
x → 0

a) Limit at right:

lim (1 + x)^1/x = 1^1/0⁺ = 1^{+ ∞} = undetermined
x → 0⁺

b) Limit at left:

lim (1 + x)^1/x = 1^{1/0^-} = 1^{- ∞} = undetermined
x → 0^-

Now fill in the two following tables:

x 1 0.1 0.01 0.001 0.0001 0.00001

(1 + x)^1/x 2 2.5937 2.7048 2.7169 2.7181 2.7182

x - 1 - 0.1 - 0.01 - 0.001 - 0.0001 - 0.00001

(1 + x)^1/x 0 2.8686 2.7322 2.7196 2.7184 2.71829

The more x approaches 0, the more f(x) approaches the value of the Euler number e = 2,71828.

Therefore:

lim (1 + x)^1/x = e
x → 0

2)
lim (e^x - 1)/x = ?
x → 0

lim (e^x - 1)/x = 0/0 = undetermined
x → 0

We know
lim (1 + x)^1/x = e
x → 0

so, at the neighborhood of 0:
(1 + x)^1/x = e or
(1 + x) = e^x or
x = e^x - 1 or
1 = (e^x - 1)/x

Therefore:

lim (e^x - 1)/x = 1
x → 0

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Calculus I

Calculus I: exponential function logarithmic function and continuity

1. Limits: exponential & logarithmic functions