Calculus Week 1-2 PDF

Summary

These lecture notes cover calculus week 1-2, focusing on preliminaries, functions, polynomials, rational functions, transformations, composition, and equations of lines topics. They are suitable for undergraduate level study.

Full Transcript

Calculus week 1-2

Preliminaries and functions

Sander Dommers

Department of Mathematics and Computer Science
Contact information

dr.ir. Sander Dommers (he/him)
Department of Mathematics and Computer Science
MetaForum 4.071a
email: [email protected]

If you have any organizational questions, please mail [email protected]

2 Calculus week 1-2
0.1 Functions

Definition (Function)
x y Let A and B be sets
f A function f is a rule
A that assigns to each
B x ∈ A exactly one y ∈ B
Notation:

y = f (x)

3 Calculus week 1-2
0.1 Functions

Definition (Function)
x y Let A and B be sets
f A function f is a rule
A that assigns to each
B x ∈ A exactly one y ∈ B
Notation:

y = f (x)
The set A is called the domain of f
The set {f (x) | x ∈ A} ⊆ B is called the range of f

3 Calculus week 1-2
0.1 Functions
If the domain of a function is not explicitly specified, we choose the domain ‘as
large as possible’

Example
√
Consider the function f (x) = x − 1. What are the domain and range of f ?

4 Calculus week 1-2
0.1 Functions
If the domain of a function is not explicitly specified, we choose the domain ‘as
large as possible’

Example
√
Consider the function f (x) = x − 1. What are the domain and range of f ?
We need x − 1 ≥ 0 so the domain is [1, ∞)
The possible values are all y ≥ 0, so the range is [0, ∞)

4 Calculus week 1-2
0.1 Polynomials

Example
Examples of polynomials

f (x) = 2
g(x) = 7x + 3
h(x) = x2 − 4x
t(x) = −6x9 + 2x3 − 4x + 1

5 Calculus week 1-2
0.1 Rational functions

Example
Examples of rational functions

1
f (x) = , for x 6= 0
x
2x + 1
g(x) = , for x2 − 4x + 3 6= 0
x2
− 4x + 3
x5 + x3
h(x) = 2 , for x2 + 5x + 7 6= 0
x + 5x + 7

6 Calculus week 1-2
0.6 Transformations of functions

Definition (Add, subtract, divide, multiply functions)
Given a function f with domain Df and a function g with domain Dg
Then we define, for x ∈ Df ∩ Dg

(f + g)(x) := f (x) + g(x)
(f − g)(x) := f (x) − g(x)
(f · g)(x) := f (x) · g(x)
 
f f (x)
(x) := provided g(x) 6= 0
g g(x)

7 Calculus week 1-2
0.6 Composition of functions

x
g (x)
Dg g

8 Calculus week 1-2
0.6 Composition of functions

f
x
g (x) f (g (x))
Dg g

8 Calculus week 1-2
0.6 Composition of functions

f
x
g (x) f (g (x))
Dg g

f ◦g

8 Calculus week 1-2
0.6 Composition of functions

f
x
g (x) f (g (x))
Dg g

f ◦g

Definition (Function composition)
(f ◦ g)(x) := f (g(x))

Read the symbol ◦ as “after”

8 Calculus week 1-2
0.6 Composition of functions – Domain
Domain of (f ◦ g)(x) := f (g(x)):
First: x → g(x) =⇒ x should be in the domain of g
Second: g(x) → f (g(x)) =⇒ g(x) should be in the domain of f

9 Calculus week 1-2
0.6 Composition of functions – Domain
Domain of (f ◦ g)(x) := f (g(x)):
First: x → g(x) =⇒ x should be in the domain of g
Second: g(x) → f (g(x)) =⇒ g(x) should be in the domain of f
Conclusion

Df ◦g = {x ∈ Dg | g(x) ∈ Df }

9 Calculus week 1-2
0.6 Composition of functions – Domain

Example
√
Let f (x) = x2 + 1 and g(x) = x − 2. Find the compositions f ◦ g and g ◦ f and
find their domains

10 Calculus week 1-2
0.6 Vertical translation
For a constant c, the graph of y = f (x) + c is the same as the graph of y = f (x)
shifted c units up
y = f (x) + 3

y y = f (x)
6 y = f (x) − 3
4
2

−2 2 4 6 8 10 12 14 x
−2

11 Calculus week 1-2
0.6 Horizontal translation
For a constant c, the graph of y = f (x − c) is the same as the graph of y = f (x)
shifted c units to the right
Note the minus sign!
y = f (x + 5) y y = f (x) y = f (x − 5)

12
10
8
6
4
2
−8 −6 −4 0
−2 −2 2 4 6 8 x

12 Calculus week 1-2
0.6 Vertical scale transformation
For a constant c > 0, the graph of y = c · f (x) is the same as the graph of
y = f (x) where the vertical scale is multiplied by c

13 Calculus week 1-2
0.6 Horizontal scale transformation
For a constant c > 0, the graph of y = f (c · x) is the same as the graph of
y = f (x) where the horizontal scale is divided by c

14 Calculus week 1-2
0.1 Distance between points
Formula for the distance between points

Let P = (x1 , y1 ) and Q = (x2 , y2 ). Then the distance between P and Q is
q
d(P, Q) = (x1 − x2 )2 + (y1 − y2 )2

15 Calculus week 1-2
0.1 Distance between points
Formula for the distance between points

Let P = (x1 , y1 ) and Q = (x2 , y2 ). Then the distance between P and Q is
q
y d(P, Q) = (x1 − x2 )2 + (y1 − y2 )2
Q
y2

d Pythagoras:

y1 P (x2 − x1 )2 + (y2 − y1 )2 = d2

x1 x2 x

15 Calculus week 1-2
0.1 Straight lines
If you take two points, there is one straight line through these points:
y
`
y2
Q

y1
P

x1 x2 x

16 Calculus week 1-2
0.1 Straight lines
If you take two points, there is one straight line through these points:
y
`
y2
We call
Q
∆y y − y1
∆y m := = 2
∆x x2 − x1
y1
P the slope of the line `

x1 x2 x

∆x

16 Calculus week 1-2
0.1 Straight lines
If you take two points, there is one straight line through these points:
y
` We call
y2
∆y y − y1
= 2
Q
m :=
∆y ∆x x2 − x1

y1 the slope of the line `
P

x1 x2 x Note that if x1 = x2 the line is
vertical and the slope is undefined
∆x

16 Calculus week 1-2
0.1 Equations of lines
General form of a line with slope m

y = mx + b

17 Calculus week 1-2
0.1 Equations of lines
General form of a line with slope m

y = mx + b

Line through P = (x0 , y0 ) with slope m

y = m(x − x0 ) + y0

This is called the point-slope form of a line

17 Calculus week 1-2
0.1 Equations of lines

Example
Find an equation of the line passing through the points (3, 1) and (4, −2)

18 Calculus week 1-2
0.1 Parallel and perpendicular

Theorem
Two (nonvertical) lines are parallel if they have the same slope
Further, any two vertical lines are parallel.

19 Calculus week 1-2
0.1 Parallel and perpendicular

Theorem
Two (nonvertical) lines are parallel if they have the same slope
Further, any two vertical lines are parallel.

Two (nonvertical) lines of slope m1 and m2 are perpendicular or orthogonal
(Dutch: loodrecht) whenever the product of their slopes is −1, i.e. m1 · m2 = −1
Also, any vertical line and any horizontal line are perpendicular.

19 Calculus week 1-2
0.1 Equations of lines

Example
Find the equations of the line passing through the point (−1, 3) and parallel
and perpendicular to y = 3x − 2

20 Calculus week 1-2