2x What formula would be used to calculate the right rectangle approximation of ²* (sin æ- cos x) dx using four subintervals? O R₁ = () {[sin () cos ()] + [sin(π) cos(π)] + [sin (³) cos (³)] + [sin(2π) cos(2π)]} O R₁ = () {[sin(0) cos(0)] + [sin () cos (₹)] + [sin(™) cos(7)] + [sin (³) cos (¹)]} OR₁ = () { [sin () cos ()] + [sin (3) cos (³)] + [sin (¹) cos (¹)] + [sin cos]} ○ R₁ = [sin(0) cos(0)] + [sin () cos ()] + [sin(7) cos(π)] + [sin (³) cos (³)]
2x What formula would be used to calculate the right rectangle approximation of ²* (sin æ- cos x) dx using four subintervals? O R₁ = () {[sin () cos ()] + [sin(π) cos(π)] + [sin (³) cos (³)] + [sin(2π) cos(2π)]} O R₁ = () {[sin(0) cos(0)] + [sin () cos (₹)] + [sin(™) cos(7)] + [sin (³) cos (¹)]} OR₁ = () { [sin () cos ()] + [sin (3) cos (³)] + [sin (¹) cos (¹)] + [sin cos]} ○ R₁ = [sin(0) cos(0)] + [sin () cos ()] + [sin(7) cos(π)] + [sin (³) cos (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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6.01 Semester Test: Calculus
SEMESTER TEST:
Calculus
2T
What formula would be used to calculate the right rectangle approximation of ſ³* (sin ä - cos ä)dä using four subintervals?
○ R₁ = () { [sin (1) cos (₹)] + [sin(π) cos(π)] + [sin (³) cos (³7)] + [sin(2π) cos(2π)]}
○_R₁ = (₹) {[sin(0) cos(0)] + [sin (₹) cos (₹)] + [sin(™) cos(™)] + [sin (³7) cos (³7)]}
OR₁-() { [sin () cos ()] + [sin () cos()] + [sin (5) cos()] + [sincos }
○_R₁ = [sin(0) cos(0)] + [sin () cos ()] + [sin(π) cos(ñ)] + [sin (³7) cos (³7)]
3
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Transcribed Image Text:le/enhancedSequenceViewer/1642893?url=https%3A%2F%2Fe02711f5-1353-40b6-af9b-349f7ff846bd.sequences.api.brightspace.com%2F1642893%2Factivity%2F254430519%3FfilterOnDates
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6.01 Semester Test: Calculus
SEMESTER TEST:
Calculus
2T
What formula would be used to calculate the right rectangle approximation of ſ³* (sin ä - cos ä)dä using four subintervals?
○ R₁ = () { [sin (1) cos (₹)] + [sin(π) cos(π)] + [sin (³) cos (³7)] + [sin(2π) cos(2π)]}
○_R₁ = (₹) {[sin(0) cos(0)] + [sin (₹) cos (₹)] + [sin(™) cos(™)] + [sin (³7) cos (³7)]}
OR₁-() { [sin () cos ()] + [sin () cos()] + [sin (5) cos()] + [sincos }
○_R₁ = [sin(0) cos(0)] + [sin () cos ()] + [sin(π) cos(ñ)] + [sin (³7) cos (³7)]
3
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O E
B
COOLER
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6.01 Semester Test: Calculus
ER TEST:
ulus
What formula would be used to calculate the left rectangle approximation of ³(2x + 2)dx using five subintervals?
O L₁ = (0.2){[2(0.2) + 2] + 2[(0.6) + 2] + 2[(1.0) + 2] + 2[(1.4) + 2] + 2[(1.8)+ 2]}
=
OL5 (0.4){[2(0.0) + 2] + 2[(0.4) + 2] + 2[(0.8) + 2] + 2[(1.2) + 2] + 2[(1.6)+ 2]}
O L5 = (0.4){[2(0.4) + 2] + 2[(0.8) + 2] + 2[(1.2) + 2] + 2[(1.6) + 2] + 2[(2.0)+ 2]}
O L5 = (0.4){[2(0.2) + 2] + 2[(0.6) + 2] + 2[(1.0) + 2] + 2[(1.4) + 2] + 2[(1.8)+ 2]}
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Transcribed Image Text:ceViewer/1642893?url=https%3A%2F%2Fe02711f5-1353-40b6-af9b-349f7ff846bd.sequences.api.brightspace.com%2F1642893%2Factivity%2F254430519%3FfilterOnDate
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6.01 Semester Test: Calculus
ER TEST:
ulus
What formula would be used to calculate the left rectangle approximation of ³(2x + 2)dx using five subintervals?
O L₁ = (0.2){[2(0.2) + 2] + 2[(0.6) + 2] + 2[(1.0) + 2] + 2[(1.4) + 2] + 2[(1.8)+ 2]}
=
OL5 (0.4){[2(0.0) + 2] + 2[(0.4) + 2] + 2[(0.8) + 2] + 2[(1.2) + 2] + 2[(1.6)+ 2]}
O L5 = (0.4){[2(0.4) + 2] + 2[(0.8) + 2] + 2[(1.2) + 2] + 2[(1.6) + 2] + 2[(2.0)+ 2]}
O L5 = (0.4){[2(0.2) + 2] + 2[(0.6) + 2] + 2[(1.0) + 2] + 2[(1.4) + 2] + 2[(1.8)+ 2]}
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RGU
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100
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