De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we...
Transcript of De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we...
![Page 1: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/1.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
Definite Integral
Bander Almutairi
King Saud University
10 Sep 2013
![Page 2: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/2.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
1 Last Lecture
![Page 3: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/3.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
In the last lecutre we studied the definite integral and we havesome important Theorems and properties.
Here are someexamples on Last lecture:
Examples:(a) Suppse
∫ 151 x2dx = 10 and
∫ 151 2xdx = 1234. Use the
integral properties to Evaluate∫ 15
1 (x + 1)2dx .Solution:∫ 15
1(x + 1)2dx =
∫ 15
1(x2 + 2x + 1)dx
=
∫ 15
1x2dx +
∫ 15
12xdx +
∫ 15
1dx , prop(3)
= 10 + 1234 + 14 = 1258, prop(1)
![Page 4: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/4.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
In the last lecutre we studied the definite integral and we havesome important Theorems and properties. Here are someexamples on Last lecture:
Examples:(a) Suppse
∫ 151 x2dx = 10 and
∫ 151 2xdx = 1234. Use the
integral properties to Evaluate∫ 15
1 (x + 1)2dx .Solution:∫ 15
1(x + 1)2dx =
∫ 15
1(x2 + 2x + 1)dx
=
∫ 15
1x2dx +
∫ 15
12xdx +
∫ 15
1dx , prop(3)
= 10 + 1234 + 14 = 1258, prop(1)
![Page 5: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/5.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
In the last lecutre we studied the definite integral and we havesome important Theorems and properties. Here are someexamples on Last lecture:
Examples:(a) Suppse
∫ 151 x2dx = 10 and
∫ 151 2xdx = 1234.
Use the
integral properties to Evaluate∫ 15
1 (x + 1)2dx .Solution:∫ 15
1(x + 1)2dx =
∫ 15
1(x2 + 2x + 1)dx
=
∫ 15
1x2dx +
∫ 15
12xdx +
∫ 15
1dx , prop(3)
= 10 + 1234 + 14 = 1258, prop(1)
![Page 6: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/6.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
In the last lecutre we studied the definite integral and we havesome important Theorems and properties. Here are someexamples on Last lecture:
Examples:(a) Suppse
∫ 151 x2dx = 10 and
∫ 151 2xdx = 1234. Use the
integral properties to Evaluate∫ 15
1 (x + 1)2dx .
Solution:∫ 15
1(x + 1)2dx =
∫ 15
1(x2 + 2x + 1)dx
=
∫ 15
1x2dx +
∫ 15
12xdx +
∫ 15
1dx , prop(3)
= 10 + 1234 + 14 = 1258, prop(1)
![Page 7: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/7.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
In the last lecutre we studied the definite integral and we havesome important Theorems and properties. Here are someexamples on Last lecture:
Examples:(a) Suppse
∫ 151 x2dx = 10 and
∫ 151 2xdx = 1234. Use the
integral properties to Evaluate∫ 15
1 (x + 1)2dx .Solution:∫ 15
1(x + 1)2dx =
∫ 15
1(x2 + 2x + 1)dx
=
∫ 15
1x2dx +
∫ 15
12xdx +
∫ 15
1dx , prop(3)
= 10 + 1234 + 14 = 1258, prop(1)
![Page 8: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/8.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
In the last lecutre we studied the definite integral and we havesome important Theorems and properties. Here are someexamples on Last lecture:
Examples:(a) Suppse
∫ 151 x2dx = 10 and
∫ 151 2xdx = 1234. Use the
integral properties to Evaluate∫ 15
1 (x + 1)2dx .Solution:∫ 15
1(x + 1)2dx =
∫ 15
1(x2 + 2x + 1)dx
=
∫ 15
1x2dx +
∫ 15
12xdx +
∫ 15
1dx , prop(3)
= 10 + 1234 + 14 = 1258, prop(1)
![Page 9: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/9.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
In the last lecutre we studied the definite integral and we havesome important Theorems and properties. Here are someexamples on Last lecture:
Examples:(a) Suppse
∫ 151 x2dx = 10 and
∫ 151 2xdx = 1234. Use the
integral properties to Evaluate∫ 15
1 (x + 1)2dx .Solution:∫ 15
1(x + 1)2dx =
∫ 15
1(x2 + 2x + 1)dx
=
∫ 15
1x2dx +
∫ 15
12xdx +
∫ 15
1dx , prop(3)
= 10 + 1234 + 14 = 1258, prop(1)
![Page 10: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/10.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
In the last lecutre we studied the definite integral and we havesome important Theorems and properties. Here are someexamples on Last lecture:
Examples:(a) Suppse
∫ 151 x2dx = 10 and
∫ 151 2xdx = 1234. Use the
integral properties to Evaluate∫ 15
1 (x + 1)2dx .Solution:∫ 15
1(x + 1)2dx =
∫ 15
1(x2 + 2x + 1)dx
=
∫ 15
1x2dx +
∫ 15
12xdx +
∫ 15
1dx , prop(3)
= 10 + 1234 + 14 = 1258, prop(1)
![Page 11: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/11.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.
Solution: We can rewrite the given sum as follows:∫ 4
6f (x)dx +
∫ 1
4f (x)dx =
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx = −
∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]= −
∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 12: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/12.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.Solution: We can rewrite the given sum as follows:
∫ 4
6f (x)dx +
∫ 1
4f (x)dx =
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx = −
∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]= −
∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 13: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/13.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.Solution: We can rewrite the given sum as follows:∫ 4
6f (x)dx +
∫ 1
4f (x)dx
=
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx = −
∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]= −
∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 14: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/14.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.Solution: We can rewrite the given sum as follows:∫ 4
6f (x)dx +
∫ 1
4f (x)dx =
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx = −
∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]= −
∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 15: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/15.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.Solution: We can rewrite the given sum as follows:∫ 4
6f (x)dx +
∫ 1
4f (x)dx =
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx = −
∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]= −
∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 16: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/16.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.Solution: We can rewrite the given sum as follows:∫ 4
6f (x)dx +
∫ 1
4f (x)dx =
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:
∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx = −
∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]= −
∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 17: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/17.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.Solution: We can rewrite the given sum as follows:∫ 4
6f (x)dx +
∫ 1
4f (x)dx =
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx
= −∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]= −
∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 18: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/18.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.Solution: We can rewrite the given sum as follows:∫ 4
6f (x)dx +
∫ 1
4f (x)dx =
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx = −
∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]= −
∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 19: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/19.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.Solution: We can rewrite the given sum as follows:∫ 4
6f (x)dx +
∫ 1
4f (x)dx =
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx = −
∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]
= −∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 20: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/20.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.Solution: We can rewrite the given sum as follows:∫ 4
6f (x)dx +
∫ 1
4f (x)dx =
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx = −
∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]= −
∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 21: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/21.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(b) Express∫ 1
4 f (x)dx +∫ 4
6 f (x)dx as one integral.Solution: We can rewrite the given sum as follows:∫ 4
6f (x)dx +
∫ 1
4f (x)dx =
∫ 1
6f (x)dx .
(c) Express∫ 6−2 f (x)dx −
∫ 2−2 f (x)dx as one integral.
Solution:∫ 6
−2f (x)dx −
∫ 2
−2f (x)dx = −
∫ −2
6f (x)dx −
∫ 2
−2f (x)dx
= −[∫ −2
6f (x)dx +
∫ 2
−2f (x)dx
]= −
∫ 2
6f (x)dx , prop(5)
=
∫ 6
2f (x)dx .
![Page 22: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/22.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(d) Verify the inquality∫ 9
1(5x4 + 3x)dx ≤
∫ 9
1(6x5 + 3x2 + 2)dx ,
without evaluating the integral.
Solution: Here [a, b] = [1, 9], f (x) = 5x4 + 3x andg(x) = 6x5 + 3x2 + 2. On [1, 9], we have
5x4 ≤ 6x5
3x ≤ 3x2 ⇒ 3x ≤ 3x2 + 2
Thus, f (x) = 5x4 + 3x ≤ 6x5 + 3x2 + 2 = g(x). Hence byproperty (7) we get∫ 9
1f (x)dx ≤
∫ 9
1g(x)dx .
![Page 23: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/23.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(d) Verify the inquality∫ 9
1(5x4 + 3x)dx ≤
∫ 9
1(6x5 + 3x2 + 2)dx ,
without evaluating the integral.Solution:
Here [a, b] = [1, 9], f (x) = 5x4 + 3x andg(x) = 6x5 + 3x2 + 2. On [1, 9], we have
5x4 ≤ 6x5
3x ≤ 3x2 ⇒ 3x ≤ 3x2 + 2
Thus, f (x) = 5x4 + 3x ≤ 6x5 + 3x2 + 2 = g(x). Hence byproperty (7) we get∫ 9
1f (x)dx ≤
∫ 9
1g(x)dx .
![Page 24: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/24.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(d) Verify the inquality∫ 9
1(5x4 + 3x)dx ≤
∫ 9
1(6x5 + 3x2 + 2)dx ,
without evaluating the integral.Solution: Here [a, b] = [1, 9], f (x) = 5x4 + 3x andg(x) = 6x5 + 3x2 + 2.
On [1, 9], we have
5x4 ≤ 6x5
3x ≤ 3x2 ⇒ 3x ≤ 3x2 + 2
Thus, f (x) = 5x4 + 3x ≤ 6x5 + 3x2 + 2 = g(x). Hence byproperty (7) we get∫ 9
1f (x)dx ≤
∫ 9
1g(x)dx .
![Page 25: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/25.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(d) Verify the inquality∫ 9
1(5x4 + 3x)dx ≤
∫ 9
1(6x5 + 3x2 + 2)dx ,
without evaluating the integral.Solution: Here [a, b] = [1, 9], f (x) = 5x4 + 3x andg(x) = 6x5 + 3x2 + 2. On [1, 9], we have
5x4 ≤ 6x5
3x ≤ 3x2 ⇒ 3x ≤ 3x2 + 2
Thus, f (x) = 5x4 + 3x ≤ 6x5 + 3x2 + 2 = g(x). Hence byproperty (7) we get∫ 9
1f (x)dx ≤
∫ 9
1g(x)dx .
![Page 26: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/26.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(d) Verify the inquality∫ 9
1(5x4 + 3x)dx ≤
∫ 9
1(6x5 + 3x2 + 2)dx ,
without evaluating the integral.Solution: Here [a, b] = [1, 9], f (x) = 5x4 + 3x andg(x) = 6x5 + 3x2 + 2. On [1, 9], we have
5x4 ≤ 6x5
3x ≤ 3x2
⇒ 3x ≤ 3x2 + 2
Thus, f (x) = 5x4 + 3x ≤ 6x5 + 3x2 + 2 = g(x). Hence byproperty (7) we get∫ 9
1f (x)dx ≤
∫ 9
1g(x)dx .
![Page 27: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/27.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(d) Verify the inquality∫ 9
1(5x4 + 3x)dx ≤
∫ 9
1(6x5 + 3x2 + 2)dx ,
without evaluating the integral.Solution: Here [a, b] = [1, 9], f (x) = 5x4 + 3x andg(x) = 6x5 + 3x2 + 2. On [1, 9], we have
5x4 ≤ 6x5
3x ≤ 3x2 ⇒ 3x ≤ 3x2 + 2
Thus, f (x) = 5x4 + 3x ≤ 6x5 + 3x2 + 2 = g(x). Hence byproperty (7) we get∫ 9
1f (x)dx ≤
∫ 9
1g(x)dx .
![Page 28: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/28.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(d) Verify the inquality∫ 9
1(5x4 + 3x)dx ≤
∫ 9
1(6x5 + 3x2 + 2)dx ,
without evaluating the integral.Solution: Here [a, b] = [1, 9], f (x) = 5x4 + 3x andg(x) = 6x5 + 3x2 + 2. On [1, 9], we have
5x4 ≤ 6x5
3x ≤ 3x2 ⇒ 3x ≤ 3x2 + 2
Thus, f (x) = 5x4 + 3x ≤ 6x5 + 3x2 + 2 = g(x).
Hence byproperty (7) we get∫ 9
1f (x)dx ≤
∫ 9
1g(x)dx .
![Page 29: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/29.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(d) Verify the inquality∫ 9
1(5x4 + 3x)dx ≤
∫ 9
1(6x5 + 3x2 + 2)dx ,
without evaluating the integral.Solution: Here [a, b] = [1, 9], f (x) = 5x4 + 3x andg(x) = 6x5 + 3x2 + 2. On [1, 9], we have
5x4 ≤ 6x5
3x ≤ 3x2 ⇒ 3x ≤ 3x2 + 2
Thus, f (x) = 5x4 + 3x ≤ 6x5 + 3x2 + 2 = g(x). Hence byproperty (7) we get∫ 9
1f (x)dx ≤
∫ 9
1g(x)dx .
![Page 30: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/30.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 31: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/31.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 32: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/32.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 33: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/33.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution:
First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 34: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/34.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1
=⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 35: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/35.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒
du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 36: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/36.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2
=⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 37: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/37.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒
u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 38: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/38.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0
=⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 39: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/39.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒
u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 40: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/40.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx
=
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 41: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/41.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx
=
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 42: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/42.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 43: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/43.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 44: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/44.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(e) In the integral∫ 0−2
3√x + 1dx :
(i) Find a number z satisfy the conclusion of the main-valuetheorem.
(ii) Find the average value of f on [−2, 0].
Solution: First we evaluate the integral by subtitution choosing
u = x + 1 =⇒ du = dx
x = −2 =⇒ u = −1
x = 0 =⇒ u = 1.
Now we integrate∫ 0
−2
3√x + 1dx =
∫ 0
−2(x + 1)
13 dx =
∫ 1
−1u
13 du
=
[3
4U
43
]1
−1
= 0.
![Page 45: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/45.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(i) The Main-Value Theorem is∫ b
af (x)dx = (b − a)f (z)
∫ 0
−2
3√x + 1dx = (0− (−2))(z + 1)
13 = 0
.
Therefore, z = −1 ∈ (−2, 0).
(ii) fav = 1b−a
∫ ba f (x)dx = 1
0−(−2) (0) = 0.
![Page 46: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/46.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(i) The Main-Value Theorem is∫ b
af (x)dx = (b − a)f (z)∫ 0
−2
3√x + 1dx
= (0− (−2))(z + 1)13 = 0
.
Therefore, z = −1 ∈ (−2, 0).
(ii) fav = 1b−a
∫ ba f (x)dx = 1
0−(−2) (0) = 0.
![Page 47: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/47.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(i) The Main-Value Theorem is∫ b
af (x)dx = (b − a)f (z)∫ 0
−2
3√x + 1dx = (0− (−2))(z + 1)
13 = 0
.
Therefore, z = −1 ∈ (−2, 0).
(ii) fav = 1b−a
∫ ba f (x)dx = 1
0−(−2) (0) = 0.
![Page 48: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/48.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(i) The Main-Value Theorem is∫ b
af (x)dx = (b − a)f (z)∫ 0
−2
3√x + 1dx = (0− (−2))(z + 1)
13 = 0
.
Therefore, z = −1 ∈ (−2, 0).
(ii) fav = 1b−a
∫ ba f (x)dx = 1
0−(−2) (0) = 0.
![Page 49: De nite Integral Bander Almutairi Last Lecture De nite ... · Last Lecture In the last lecutre we studied thede nite integraland we have some important Theorems and properties. Here](https://reader030.fdocuments.in/reader030/viewer/2022041022/5ed3e2b7cf873357701f7607/html5/thumbnails/49.jpg)
DefiniteIntegral
BanderAlmutairi
Last Lecture
(i) The Main-Value Theorem is∫ b
af (x)dx = (b − a)f (z)∫ 0
−2
3√x + 1dx = (0− (−2))(z + 1)
13 = 0
.
Therefore, z = −1 ∈ (−2, 0).
(ii) fav = 1b−a
∫ ba f (x)dx = 1
0−(−2) (0) = 0.