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Mathematics AA SL IB Diploma Program - Topic 5: Calculus

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Detailed notes for mathematics analysis and approaches SL topic 5: calculus. Includes worked examples and IB-style questions

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  • August 22, 2022
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  • 2021/2022
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topics 5 :




Calculus

, Monday ,
8 March




introduction ntoroalculus
⑤ '
'
Calculus '
Latin word -_ pebble .





Differential calculus
*
Derivatives .
'
undamental Theory of calculus
*
Differentiation .





Integral calculus

*

Integrals .




*

Integration .





History :





Sir Isaac Newton vs .
Wilhelm Leibniz .





Newton accused Leibniz of had not published
plagerism although he his
findings on calculus .





As president of the royal society he biased a court to attribute the credit to him .





Atone time in history ,
calculus -
-
math .





Calculus t
founded in concept of LIMITS .





Lim fix )=A " LIMIT
X sa




"
as X approaches a .





Finding the limit :

⑨ ⑤ ⑤
Graph :
Lim fix )=x2 -
X -
6 Equation :L .
Lim fix )=x3
-
2x -15 Table : lim
fcx )=2

-15=33-213
X→2 x→3
X


)

5=27-6+5
t


X flx)

=
271-5 4.9 1.9


LIMIT -
- 26 4.99 1.99
XZ -
I
lim 4.999 1.999
" fix)
ztromtherictht
> 2. = X -
I




[
it
Iffy
x -
ex th
approaches
-




= g. Gaga i. 9999


f- ( x ) : -4 "
LIMIT
'
-
Xt 1 as X approaches 5
, fix) = 2


✓ approaches 2-

2. from the left f)
= It 1



LIMIT -_ 2

,⑤ Basic derivative rule :




⑨ t
f' ( x ) nxn
" -




fix )=X
' -
-




⑨ "
f' ( x ) if prime of x ( Notation ) .
1.
Bring down exponent to
multiply .




2. Subtract 1 to exponent .





Examples :




I
fix) 3×4-5×2
-
- -
Sx 2/0=1 2

fix
)=}xs -
8×4-531×3 -125×2 tax
3
gcx ) : # # # -
t -

8x



f' ( x ) 12×3-10×-5 f' 1×1=31×4-32×3 355×2+5×+9 g. ( x ) = 5×-4 3×-3+2×-2 8x
-
- - -
-




'
( x) 20×-5+9×-4 4×-3 8
g.
= -
-
-




⑤ First principle of derivatives : gicx)=
-
+
IT ¥-8 -




⑨ fxth ) fix)
f' ( x ) -_ lim -




h- O h
>
Where does it come from ?
*
Derivative is the instantaneous rate of change .




TANGENT LINE : line that touches a cuneata point .




*
Instantaneous rate of change = Gradient of a
tangent line .




SECANT LINE : line that crosses a curve at 2 Points .




spate of change = Gradient of a secant line .




y
*
Gradient -

-
X





Example : ( ( x) -_ 200×2-5×+80

"
C' 1×1=400×-5 derivative of a constant -_
Zero .




V


Rate of change of Ctx )





Derivative "
also known as the gradient function .




⑨ When substitute values of X. then you get the gradient and the tangent line at that value of
you x .




Examples Find the derivative the first principles
using
: :




I 2
fcx)= 3×-5
fcx )
-
-
XZ -

2×+1

( im flxth ) f ( x) *
ftxth ) *
flex )= fcx )=3X 5
f' ( x ) him f- ( x )
-

=
fix)=x2 -2×+1
-
-




h
h- O h
* h- O to
fcxth) =3 ( Xth ) -
5
fcxth )
-
- (Xth )2 -
2(xthltl

Lim 3Cxth ) -
S -

( 3×-5 ) Iim X72Xhth2 -
2x -
2h -11 -
( XZ 2Xt1 )
-

=x2t2xhth2 2. htt
-
2x -




h- O h h
n- O




( im # + 3h -15-3/7 # Iim xztzxhth
'
- 2x -
2. htt -212+2×-1

h→O h h- O h




( im 3K Iim 2x h th -
2h

h→0 ht n→0 h




Lim 3 =
3 lim hl2xth -21 -
2x th -
2 ' 2×+0-2
h
h→0 into
=
2X -2

, ⑨
Types of discontinuity :





Essential .




⑤ Removable .





qghifnq.at gtfo
'" "


.ME#ugae.f'
=3




x' Fat
'




fix F f- "' '

a
-




lim fix) DNE
Xt -4 does not exist



*
The only way to remove a
discontinuity is to assign a function value at the point of discontinuity .




⑤ Limits at
infinity :



2X -
3 lim
*
f- ( X )=2
f- (x ) Xt 't x - + as
-
-




a Lim
*
as
fcx )=2
-

x→



-




) x' I
Iim "
← *
fix )
7 fix) F
t too it
fix
-

-_ -



x→ y
y=2
- -
, - .
-



>
lim
*
It
x→
fix)= as DNE
- -


-




-
O l l l l l l t CS

-




-




-




21=-7
V




HOMEWORK :


*
Solve the basic derivative rule :
using



F- X1 3×3 Ix't 5×-8 Ex 2 5×2-531×+9 Ex Ex3:hlX)=5 # tf ¥3 -




fix) gtx)
: -
-
- : -
-
- -




f' ( x ) 9×2-83×+5
-

-



g. (x ) -

- 5×2 -
21+9-5×-1 hlx) -
- 5 Ix
-
7×-1+8×-2 -
- 3




'
( X) 10x 55+5×-2 n' 1×1=7×-2 16×-3+21×-4
g.
-
- -
-




'
(x) tox Bt # n' ( ) ¥2 ¥t¥
g. x
- -
- -
- -

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