Mathematics-1 Lecture Notes PDF

Summary

These lecture notes cover fundamental mathematics topics, including pre-calculus review, limits and continuity, differentiation, the mean value theorem, integration, and techniques of integration, suitable for undergraduate students.

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MATHEMATICS-1
LECTURE 2

2019-1ST LEVEL BIO/SWE PROGRAMS

Dr. Ahmed Kafafy
Operation Research & Decision Support Dept.
Faculty of computers & information,
Menoufia University

Course outlines

– General Pre-calculus review
– Limits and continuity
– Differentiation
– The Mean value theorem
– Integration and its application
– Techniques of integration
General Pre-calculus review
– Review of elementary math.
– Inequalities
– Coordinate plane
– analytical geometry
– Functions and their combinations
– Function composition

Functions
‰ The fundamental process of calculus (differentiation & integration)
are applied to functions.
‰ we will concern with real valued functions of real variables,
‰ A function f is a process of mapping each element x in its domain to
a unique image f(x) in its range
Domain and Range
Example: Squaring function

݂ ‫ ݔ‬ൌ ‫ ݔ‬ଶǡ ‫ܴא ݔ׊‬
Dom( f ) Î ܴ ൌ ሺെλ,, λሻ Î ܴା ൌ Ͳǡ λ
Range(f)Î

Example:

The function g(x) maps [0,6] onto [2,4]

Domain and Range
Some functions are definedd piecewise

x) mapss ሺെλ,, λሻ ֜ ሺെλ,, λሻ
h(x)

A more familiar example is the absolute value function

x) mapss ሺെλ,, λሻ ֜ ሾͲ,, λሻ
f(x)

Remark, this form is often used:
‫ݕ‬ൌ݂ ‫ݔ‬

‫ ݕ‬is the dependent variable ‫ ݔ‬is the independent variable
Graph of functions
The graph of a function f with domain D is the graph of the equation
‫ ݕ‬ൌ ݂ሺ‫ݔ‬ሻ with ‫ ݔ‬restricted to ‫ܦ‬

šƒ’Ž‡ǣ
ࢌ ࢞ ൌ ࢞૛ ǡ
࢞ ‫ א‬ሺെλǡ λሻ

Graph of functions
The graph of a functions
Is a function or not ?
Is this graphs for a function or not?
Hint: Use vertical line Test

is a function is not a function is not a function

f(x) is a function iff Each ‫ ܦ א ݔ‬has only one image f(x)

Even & Odd functions , Symmetry

For even integer ݊ǡ ሺെ‫ݔ‬ሻ௡ = ‫ ݔ‬௡ , But for odd integer ݊ǡ ሺെ‫ݔ‬ሻ௡ = െ‫ ݔ‬௡

Even :Symmetric about y-axis
y- Odd: Symmetric about origin
Convention on domain
If the domain of a function f is not given, then we take as domain the
maximal set of real numbers x which f(x) is a real number.

Example: give the domain of each function

Solution:
(a) f(x) is real number oŽ› ‹ˆ ‫ ݔ‬ଶ ൅ ‫ ݔ‬െ ͸ ് ͲǤ Since
‫ ݔ‬ଶ ൅ ‫ ݔ‬െ ͸ ൌ ‫ ݔ‬൅ ͵ ‫ ݔ‬െ ʹ ֜ Thus ‫ ܴ א ݔ‬െ െ͵ǡʹ
(b) For g(x) to be a real number, we need:
૝ െ ࢞૛ ൒ ૙ and ࢞ ് ૚Ǥ
Since ૝ െ ࢞૛ ൒ ૙ iff ࢞૛ ൑ ૝ iff െ૛ ൑ ࢞ ൑ ૛
Thus: ࢞ ‫ א‬െ૛ǡ ૛ െ ૚ ֜ ሾെ૛ǡ ૚ሻ ‫ ׫‬ሺ૚ǡ ૛ሿ

The Elementary functions
The functions that figure most prominently in single-variable
calculus are the polynomials, the rational functions, the
trigonometric functions, the exponential functions, and the logarithm
functions.
Polynomials :
A function of the form:

where the coefficients ܽ௡ ǡ ܽ௡ିଵ ǡ ǥ ǡ ܽ଴ ‫ܴ א‬ǡ and ܽ௡ ് Ͳ is called a
(real polynomial of degree ݊)

0 degree Î‫ ݕ‬ൌ ܿ line
1st degree Î‫ ݕ‬ൌ ܽ‫ ݔ‬൅ ܿ line
2nd degree Î ‫ ݕ‬ൌ ܽ‫ ݔ‬ଶ ൅ ܾ‫ ݔ‬൅ ܿ quadratic function
3rd degree Î ‫ ݕ‬ൌ ܽ‫ ݔ‬ଷ ൅ ܾ‫ ݔ‬ଶ ൅ ܿ‫ ݔ‬൅ ݀ cubic function
The Elementary functions-Rational
Rational function:
A function of the form:
௉ሺ௫ሻ
ܴ ‫ ݔ‬ൌ ொሺ௫ሻ

where ܲ & Q are polynomials.
dom(ܴሻ ൌ ሼ‫ݔ‬ǣ ܳ ‫Ͳ ് ݔ‬ሽ
Note: every polynomial is rational function ܲ ‫ ݔ‬ൌ ܲሺ‫ݔ‬ሻȀͳ

The Elementary functions
Trigonometric functions:
‰ Degree measure, traditionally used to measure angles.
‰ Another way of measuring angles is: measuring angles in radians.
‰ In degree measure a full turn is effected over the course of 360°.
‰ In radian measure, a full turn is effected during the course of ʹߨ
radians. (The circumference of a circle of radius 1 is ʹߨ ) Thus
The Elementary functions
Cosine & Sine:
࢟ ൌ ‫ܖܑܛ‬ሺࣂሻ
Note the unit circle (radius =1, ‫ݕ‬
centered (0,0))
Let ߠ be any real number. The rotation
‫ݔ‬
ߠ takes ‫ ܣ‬ሺͳǡ Ͳሻ to some point ܲሺ‫ݔ‬ǡ ‫ݕ‬ሻǤ
࢞ ൌ ‫ܛܗ܋‬ሺࣂ)

‘• ߠ ൌ ‫ ݔ‬ǡ •‹ ߠ ൌ ‫ݕ‬

9ࡼ has the coordinates
ሺ‫ࣂ ܛܗ܋‬ǡ ‫ࣂ ܖܑܛ‬ሻ Ǥ
9 •‹ ߠ ൅ ʹߨ ൌ •‹ሺߠሻ ‘•ሺߠ ൅
ʹߨሻ ൌ ‘•ሺߠሻ
9 •‹ െߠ ൌ െ•‹ሺߠሻ ‘•ሺെߠሻ ൌ
‘• ߠ (even & odd)

The Elementary functions
Cosine & Sine:
c)
d) Sine is even & cosine is odd

Tangent, cotangent, secant cosecant:
௬ ୱ୧୬ሺఏሻ
Tangent –ƒ ߠ ൌ ֜
௫ ୡ୭ୱሺఏሻ
ଵ ଵ
Cosecant • ߠ ൌ ֜
௬ ୱ୧୬ሺఏሻ
ଵ ଵ
Secant •‡ ߠ ൌ ֜
௫ ୡ୭ୱሺఏሻ
௫ ୡ୭ୱሺఏሻ
Cotangent ‘– ߠ ൌ ֜
௬ ୱ୧୬ሺఏሻ
The Elementary functions

Trigs in terms of right triangle

The Elementary functions
Trigs Identities
i) Unit circle

ii) Periodicity

iii) Odd & even

vi) Sine & cosine

v) double- angle
Graph of trigonometric

y sin( x) !  1 d sin( x) d 1 y cos( x) !  1 d cos( x) d 1

y tan(x) y cot(x)

Graph of trigonometric

b) g ( x) cos( x)

y csc( x) 1 / sin( x) y sec( x) 1 / cos( x)
Combination of functions

Algebraic Combinations
On the intersections of their domain, Functions can
be:
=> added
=> subtracted
=> Multiplied

=> form the quotient | g(x) ് 0

=> form the reciprocal| g(x) ് Ͳ

(αf )( x) α f ( x) => Multiplied by a scalar ߙ ‫א‬
ܴ
(Df  Eg)( x) D f ( x)  Eg( x) => Linear combination by ߙ&ߚ ‫ܴ א‬

Combination of functions

Example: given: &

a) we can form ‫ ݔ‬൅ ͵ iff ‫ ݔ‬൅ ͵ ൒ Ͳ ֜ ‫ ݔ‬൒ െ͵ ֜ ‫ א ݔ‬ሾെ͵ǡ λሻ
we can form ͷ െ ‫ ݔ‬െ ʹ iff ͷ െ ‫ ݔ‬൒ Ͳ ֜ ‫ ݔ‬൑ ͷ ֜ ‫ א ݔ‬ሺെλǡ ͷሿ

b) ݀‫ ݂ ݉݋‬൅ ‰ ൌ ݀‫ ֜ ‰ ݉݋݀ ת ݂ ݉݋‬െ͵ǡ λ ‫ ת‬ሺെλǡ ͷሿ ൌ ሾെ͵ǡͷሿ
݂ ൅ ‰ ‫ ݔ ݂ ֜ ݔ‬൅ ‰ š ֜ ‫ ݔ‬൅ ͵+ ͷ െ ‫ ݔ‬െ ʹ
௙
c) For ݀‫݉݋‬ , we must exclude from െ͵ǡͷ , ‫ ݔ‬at which ‰ሺ‫ݔ‬ሻ=0 => ‫ ݔ‬ൌ ͳǤ
୥
௙
݀‫݉݋‬ ‫ א ݔ ֜ ݔ‬െ͵ǡͷ െ ͳ ֜ ሾെ͵ǡͳሻ ‫ ׫‬ሺͳǡͷሿ
୥
݂ ݂ሺ‫ݔ‬ሻ ‫ݔ‬൅͵
‫֜ ݔ‬ ֜
‰ ‰ሺ‫ݔ‬ሻ ͷെ‫ݔ‬െʹ
Vertical/horizontal shifts

‰ Adding/subtracting a positive constant
c to a function raises/lowers the graph
by c units.
‰ Adding/subtracting a Positive constant
c to the argument shifts the graph
left/right c units.
‰ Stretching the graph

Composition of functions
Composition of functions
Example 1: Let ‰ ‫ ݔ‬ൌ ‫ ݔ‬ଶ & ݂ ‫ ݔ‬ൌ ‫ ݔ‬൅ ͵ : Find ݂‫ݔ ‰ל‬ &
‰‫ݔ ݂ל‬

‰ ݂‫ݔ ‰ ݂֜ ݔ ‰ל‬ ֜ ݂ ‫ݔ‬ଶ ֜ ‫ ݔ‬ଶ ൅ ͵ Î first squares then adds 3
‰ ‰‫ݔ ݂ ‰֜ ݔ ݂ל‬ ֜ ‰ ‫ ݔ‬൅ ͵ ֜ ሺ‫ ݔ‬൅ ͵ሻଶ Î first adds 3 then squares

Example 2: Let: ݂ ‫ ݔ‬ൌ ‫ ݔ‬ଶ െ ͳ & ‰ ‫ ݔ‬ൌ ͵ െ ‫ ݔ‬, Find ݂ ‫݂ ל ‰ & ‰ ל‬

‰ dom(‰ሻ ൌ (െλǡ ͵ሿǡ ݂is every where defined, Î thus ݀‫݉݋‬ሺ݂ ‫( =)‰ ל‬െλǡ ͵ሿ

݂‫ݔ ‰ ݂֜ ݔ ‰ל‬ ֜ ሺ ͵ െ ‫ݔ‬ሻଶ െ ͳ ֜ ͵ െ ‫ ݔ‬െ ͳ ൌ ʹ െ ‫ݔ‬

‰ Since , ‰ ݂ሺ‫ݔ‬ሻ ൌ ͵ െ ݂ሺ‫ݔ‬ሻ, It must have ݂ሺ‫ݔ‬ሻ ൑ ͵ , thus x ‫ א‬െʹǡʹ Ǥ

‰‫ݔ ݂ ‰֜ ݔ ݂ל‬ ֜ ‰ ‫ ݔ‬ଶ െ ͳ ֜ൌ ͵ െ ሺ‫ ݔ‬ଶ െͳሻ ൌ Ͷ െ ‫ݔ‬ଶ

Composition of functions
Composition can be performed on more than two function, for example,
the triple ݂ ‫ ݄ ל ‰ ל‬consists of first ݄ then ‰ and then ݂ :
݂‫ݔ ݄ ‰ ݂֜ ݔ ݄ל‰ל‬

ଵ
Example 3: Let ݂ ‫ ݔ‬ൌ , ‰ ‫ ݔ‬ൌ ‫ ݔ‬ଶ ൅ ͳ ǡ ݄ ‫ ݔ‬ൌ ‘•ሺ‫ݔ‬ሻ thus:
௫

૚
݂ ‫݄ ‰ ݂ ֜ ݔ ݄ ל ‰ ל‬ሺ‫ݔ‬ሻ ֜ ݂ ‰ ‘•ሺ‫ݔ‬ሻ ֜ ݂ሺ ‘• ଶ ሺ‫ݔ‬ሻ ൅ ͳሻ ֜
ࢉ࢕࢙૛ ሺ࢞ሻା૚
ଵ ଵ ଵ
݂ ‰ ݄ሺ‫ݔ‬ሻ ֜ ֜ ֜
୥ ௛ሺ௫ሻ ௛ሺ௫ሻమ ାଵ ௖௢௦ మ ሺ௫ሻାଵ
ଵ
Example 4: Find the function ݂ ǡ ‰ Ƭ ݄ •— Š–Šƒ–݂ ‫ ݄ ל ‰ ל‬ൌ ሺ‫ݔ‬ሻ ൌ
௫ ାଷ
ሺ‫ݔ‬ሻ first takes the absolute value, adds 3 and then inverts
ଵ
Let ݄ሺ‫ݔ‬ሻ ൌ ‫ ݔ‬, ‰ ‫ ݔ‬ൌ ‫ ݔ‬൅ ͵ and ݂ ‫ ݔ‬ൌ
௫
ଵ ଵ ଵ
Thus ݂ ‫ ݄ ל ‰ ל‬ൌ ݂ ‰ ݄ ‫ݔ‬ ൌ ൌ =
୥ ௛ ௫ ୥ ௫ ௫ ାଷ