calculus - a modern approach - knisley and shirley
TRANSCRIPT
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5# # ' = = & #- = = BC
6@ . #A #
#- = - ) ' = 2 G = - -= - = #
! ( # # # + # (, # ,+ # / #!-
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# '9 - #- ' =
9
= ' '#
$
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2 )= = = H 5# = =
#
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! 3;3
= - - 26= ' 4 >' !-* ' ># )= 6= !-* 5 ' ' 2 ' ' = - = # - 4 - "(/ 2 - 6= !-* = -
' G' '# ' = -
# 2 /8 ## @! ' - - 5# ' ' # '# 5# ' ' # - - 4 ) = E = # = ' # '
2 7 # - ' ' & 5# 2 = - = 7 # # = ' ' ' =
- = ' @= -#
! 3', %
. 8'
F # '# ? = - - =@ 2 = = ' ' E = #
& 2' ' ' & -= '# ' -#
)= >' !-* # B'C # = ' =
33 3
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#
@ : '
' # - # ' = #
D$E)= ' ' 2 -=
- = # 5 '
@ @ ; - '
@ = # - - ' D$E > = '=# - - D ' - 5E
. 8' / 2' - #-
D$E
@$ 7 #
# ' '# ' 7 # '= '# -
' - # - D$E ;
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. 8' 9;/ 2' - #-
D$$E
' 7 # D7E = D = E #A ; ' '# # -=
2/ 2' '
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' # )= =#
' ' # =
F = 7 # ' ; # @
#A- '# ' ' )= A' ' 5 ' #
5 4%%7 4%7A .
(
!8 A 5# = 7 # - # . 3 ' = - & - #
@(
' ' ;
D$(E4; = = D$(E '#
3- 3$
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'
,'/
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= - ' 2' 7 #
; 7 #
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' =
,'/ =
=
= 5# '
C 3 A .
3( 33
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(
> ' =
@+ '
' = ?