(ii) ſ (sin x - cos x) dx
Answers
Step-by-step explanation:
Integral of sin(x) + cos(x)
Consider the following integral:
� π
sin(x) + cos(x) dx.
0
a) Use what you have learned about definite integrals to guess the value of this
integral.
b) Find antiderivatives of cos(x) and sin(x). Check your work.
c) Use the addition property of integrals to compute the value of:
� π
sin(x) + cos(x) dx.
0
Check your work by comparing to your answer from part a.
Solution
a) Use what you have learned about definite integrals to guess the value of this
integral.
The addition property of integrals tells us that:
� π � π � π
sin(x) + cos(x) dx = sin(x) dx + cos(x) dx.
0 0 0
� π
We saw in lecture that sin(x) dx = 2.
0
� π
The value of cos(x) dx equals the (signed) area between the graph of
0
y = cos(x) and the x-axis. Between 0 and
�π
π
the amount of area above the
axis equals the amount below the axis, so cos(x) dx = 0
0
We conclude that:
� π
sin(x) + cos(x) dx = 2. 0
b) Find antiderivatives of sin(x) and cos(x). Check your work.
The derivative of sin x is cos x, so sin(x) is an antiderivative of cos(x).
The derivative of cos x is − sin x. To find a function whose derivative is sin(x)
we multiply by −1 to get − cos(x).
Check your work:
d (− cos(x)) = −(− sin(x)) = sin(x); dx
1d sin(x) = cos(x). dx
c) Use the addition property of integrals to compute the value of
� π
sin(x) + cos(x) dx.
0
Check your work by comparing to your answer from part a.
� π � π � π
sin(x) + cos(x) dx = sin(x) dx + cos(x) dx (addition property)
0 0 0
π π = − cos(x)| + sin(x)| (FFT2) 0 0
= [− cos(π) − (− cos(0))] + [sin(π) − sin(0)]
= [−(−1) + 1] + [0 − 0]
= 2.
This agrees with our answer to part a.
Answer:
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