Chapter 5 | Integration
555
Differentiating the first term, we obtain
⎡ ⎣ − ∫
t 3 dt ⎤
x
d dx ⎦ =− x 3 . Differentiating the second term, we first let u ( x ) =2 x . Then, 0
⎡ ⎣ ⎢ ∫
⎤ ⎦ ⎥
⎡ ⎣ ⎢ ∫
⎤ ⎦ ⎥ = d dx
u ( x )
2 x
d dx
t 3 dt
t 3 dt
0
0
= ( u ( x )) 3 du dx = (2 x ) 3 ·2 =16 x 3 .
Thus,
⎡ ⎣ − ∫
t 3 dt ⎤
⎡ ⎣ ⎢ ∫
⎤ ⎦ ⎥
2 x
x
F ′( x ) = d dx
⎦ + d
t 3 dt
dx
0
0
=− x 3 +16 x 3 =15 x 3 .
x 2
5.18
Let F ( x ) = ∫ x
cos tdt . Find F ′( x ).
Fundamental Theorem of Calculus, Part 2: The Evaluation Theorem The Fundamental Theorem of Calculus, Part 2, is perhaps the most important theorem in calculus. After tireless efforts by mathematicians for approximately 500 years, new techniques emerged that provided scientists with the necessary tools to explain many phenomena. Using calculus, astronomers could finally determine distances in space and map planetary orbits. Everyday financial problems such as calculating marginal costs or predicting total profit could now be handled with simplicity and accuracy. Engineers could calculate the bending strength of materials or the three-dimensional motion of objects. Our view of the world was forever changed with calculus. After finding approximate areas by adding the areas of n rectangles, the application of this theorem is straightforward by comparison. It almost seems too simple that the area of an entire curved region can be calculated by just evaluating an antiderivative at the first and last endpoints of an interval.
Theorem 5.5: The Fundamental Theorem of Calculus, Part 2 If f is continuous over the interval ⎡ ⎣ a , b ⎤
⎦ and F ( x ) is any antiderivative of f ( x ), then
(5.17)
b f ( x ) dx = F ( b )− F ( a ).
∫
a
We often see the notation F ( x ) | a b to denote the expression F ( b )− F ( a ). We use this vertical bar and associated limits a and b to indicate that we should evaluate the function F ( x ) at the upper limit (in this case, b ), and subtract the value of the function F ( x ) evaluated at the lower limit (in this case, a ). The Fundamental Theorem of Calculus, Part 2 (also known as the evaluation theorem ) states that if we can find an
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