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Title: Integration by Substitution
Description: Basics of integration and integration by substitution
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TABLE OF ANTIDIFFERENTIATION FORMULAS
General antiderivatives
1
...
∫ π‘Žπ‘“ (π‘₯ ) 𝑑π‘₯ = π‘Ž ∫ 𝑓 (π‘₯ ) 𝑑π‘₯
π‘₯ 𝑛+1

3
...
∫ π‘₯ 𝑛 𝑑π‘₯ = ln|π‘₯ | + 𝐢, 𝑛 = βˆ’1
π‘Žπ‘›

5
...
∫ 𝑒 𝑛 𝑑π‘₯ = 𝑒 𝑛 + 𝐢

Antidifferentiation formulas of trigonometric functions
7
...
∫ cos π‘₯ 𝑑π‘₯ = sin π‘₯ + 𝐢
9
...
∫ csc2 π‘₯ 𝑑π‘₯ = βˆ’cot π‘₯ + 𝐢
11
...
∫ csc π‘₯ cot π‘₯ 𝑑π‘₯ = βˆ’csc π‘₯ + 𝐢
13
...
∫ tan π‘₯ 𝑑π‘₯ = ln|sec π‘₯ | + 𝐢
15
...
∫ csc π‘₯ 𝑑π‘₯ = ln|csc π‘₯ βˆ’ cot π‘₯ | + 𝐢
Antidifferentiation formulas yielding inverse trigonometric functions
1

17
...
∫ π‘Ž2 +π‘₯2 𝑑π‘₯ = π‘Ž tanβˆ’1 (π‘Ž) + 𝐢, π‘Ž β‰  0
19
...
∫ sinh π‘₯ 𝑑π‘₯ = cosh π‘₯ + 𝐢
21
...
∫ sech2 π‘₯ 𝑑π‘₯ = tanh π‘₯ + 𝐢
23
...
∫ sech π‘₯ tanh π‘₯ 𝑑π‘₯ = βˆ’sech π‘₯ + 𝐢
25
...
∫ coth π‘₯ 𝑑π‘₯ = ln|sinh π‘₯ | + 𝐢
27
...
∫ sech π‘₯ 𝑑π‘₯ = 2 tanβˆ’1 𝑒 π‘₯ + 𝐢 = tanβˆ’1 (sinh π‘₯ ) + 𝐢
29
...

Antiderivatives are not unique
...

𝐹 (π‘₯ ) + 𝐢 is the general antiderivative of 𝑓, while each antiderivative is a particular
antiderivative of 𝑓
...

Example: Given that 𝐹 β€² (π‘₯ ) = 2π‘₯ 3 and that 𝐹 (4) = 16, what is 𝐹(π‘₯)?
First, identify the general antiderivative of 𝐹(π‘₯)
...

𝐹 (4) = 16
(4)4
+ 𝐢 = 16
4
𝐢 = 16 βˆ’ 64 = βˆ’48
Thus, the particular antiderivative is 𝑭(𝒙) =

INTEGRATION BY SUBSTITUTION

π’™πŸ’
𝟐

βˆ’ πŸ’πŸ–
...
The challenging
part with substitution is with finding the appropriate value of 𝑒
...
Suppose 𝐹(π‘₯) is an antiderivative of 𝑓(π‘₯), then
𝐹(𝑔(π‘₯ )) is an antiderivative of 𝑓(𝑔(π‘₯ )) βˆ™ 𝑔′(π‘₯)
...
Thus,
∫ 𝑓 (𝑒)𝑑𝑒 = 𝐹 (𝑒) + 𝐢
Candidates for 𝑒 include the following:
a
...

c
...


The denominator of the function or a part thereof
Non-integrable
Title: Integration by Substitution
Description: Basics of integration and integration by substitution
Buy These NotesPreview