103. Use a left Riemann sum with n= 4 subintervals to approximate the area under the curve f(x (0, 2). The graph of f(z) is below, illustrate the Riemann sums on this graph and state whe overestimate or underestimate. [(*) 3 1 5 4 2 8 7 6 2 I 3
103. Use a left Riemann sum with n= 4 subintervals to approximate the area under the curve f(x (0, 2). The graph of f(z) is below, illustrate the Riemann sums on this graph and state whe overestimate or underestimate. [(*) 3 1 5 4 2 8 7 6 2 I 3
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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Question
![1
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4.2 Riemann Sums
103. Use a left Riemann sum with n = 4 subintervals to approximate the area under the curve f(x)=
(0, 2). The graph of f(r) is below, illustrate the Riemann sums on this graph and state wheth
overestimate or underestimate.
6
4
3
(v
(1) / (√2 + 2)²
5√//
(1)
√36
(k) / T
√√-362²
8
$150
7
5
31
-
f(x)
da
1
2
I
3
4 subintervals to approximate the area under
04. Use a right Riemann sum with n
[0, 2]. The graph of f(r) is below, illustrate the Riemann sums on this graph a
overestimate or underestimate.
13](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fee600593-91c7-4805-a985-76775ddead10%2Ff3b8c988-de89-4f4d-bf55-2e239563b5be%2Fjcjjxv_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1
-1
2
4.2 Riemann Sums
103. Use a left Riemann sum with n = 4 subintervals to approximate the area under the curve f(x)=
(0, 2). The graph of f(r) is below, illustrate the Riemann sums on this graph and state wheth
overestimate or underestimate.
6
4
3
(v
(1) / (√2 + 2)²
5√//
(1)
√36
(k) / T
√√-362²
8
$150
7
5
31
-
f(x)
da
1
2
I
3
4 subintervals to approximate the area under
04. Use a right Riemann sum with n
[0, 2]. The graph of f(r) is below, illustrate the Riemann sums on this graph a
overestimate or underestimate.
13
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-1
2
4.2 Riemann Sums
103. Use a left Riemann sum with n = 4 subintervals to approximate the area under the curve f(x)=
(0, 2). The graph of f(r) is below, illustrate the Riemann sums on this graph and state wheth
overestimate or underestimate.
6
4
3
(v
(1) / (√2 + 2)²
5√//
(1)
√36
(k) / T
√√-362²
8
$150
7
5
31
-
f(x)
da
1
2
I
3
4 subintervals to approximate the area under
04. Use a right Riemann sum with n
[0, 2]. The graph of f(r) is below, illustrate the Riemann sums on this graph a
overestimate or underestimate.
13](https://content.bartleby.com/qna-images/question/ee600593-91c7-4805-a985-76775ddead10/4eafcfdc-977c-4b9d-a787-79d68da9350c/lx2gxg_processed.jpeg)
Transcribed Image Text:1
-1
2
4.2 Riemann Sums
103. Use a left Riemann sum with n = 4 subintervals to approximate the area under the curve f(x)=
(0, 2). The graph of f(r) is below, illustrate the Riemann sums on this graph and state wheth
overestimate or underestimate.
6
4
3
(v
(1) / (√2 + 2)²
5√//
(1)
√36
(k) / T
√√-362²
8
$150
7
5
31
-
f(x)
da
1
2
I
3
4 subintervals to approximate the area under
04. Use a right Riemann sum with n
[0, 2]. The graph of f(r) is below, illustrate the Riemann sums on this graph a
overestimate or underestimate.
13
Solution
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