In the following exercises, evaluate the indefinite integral ∫ f ( x ) d x with constant C = 0 using u-substitution. Then, graph the function and the antiderivative over the indicated interval. If possible, estimate a value of C that would need to be added to the antiderivative to make it equal to the definite integral F ( x ) = ∫ a x f ( t ) d t , with a the left endpoint of the given interval. 302. [T] ∫ ( x + 2 ) e − x 2 − 4 x + 3 d x over [−5, 1]
In the following exercises, evaluate the indefinite integral ∫ f ( x ) d x with constant C = 0 using u-substitution. Then, graph the function and the antiderivative over the indicated interval. If possible, estimate a value of C that would need to be added to the antiderivative to make it equal to the definite integral F ( x ) = ∫ a x f ( t ) d t , with a the left endpoint of the given interval. 302. [T] ∫ ( x + 2 ) e − x 2 − 4 x + 3 d x over [−5, 1]
In the following exercises, evaluate the indefinite integral
∫
f
(
x
)
d
x
with constant C = 0 using u-substitution. Then, graph the function and the antiderivative over the indicated interval. If possible, estimate a value of C that would need to be added to the antiderivative to make it equal to the definite integral
F
(
x
)
=
∫
a
x
f
(
t
)
d
t
, with a the left endpoint of the given interval.
302. [T]
∫
(
x
+
2
)
e
−
x
2
−
4
x
+
3
d
x
over [−5, 1]
With differentiation, one of the major concepts of calculus. Integration involves the calculation of an integral, which is useful to find many quantities such as areas, volumes, and displacement.
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Definite Integral Calculus Examples, Integration - Basic Introduction, Practice Problems; Author: The Organic Chemistry Tutor;https://www.youtube.com/watch?v=rCWOdfQ3cwQ;License: Standard YouTube License, CC-BY