Set up the triple integral that will give the following: a) the volume of R using cylindrical coordinates with dV= r dz dr de where R:0≤ *51,055 VI-²,0 ≤ ≤√4-(2²+²). Draw the solid R.
Set up the triple integral that will give the following: a) the volume of R using cylindrical coordinates with dV= r dz dr de where R:0≤ *51,055 VI-²,0 ≤ ≤√4-(2²+²). Draw the solid R.
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
Related questions
Question
#6
![Directions: Solve the following problems NEATLY, COMPLETELY and CORRECTLY. You
must submit the problem set through Canvas in PDF file. Do NOT use graphing devices in your
work.
1.
Identify the surfaces of the following equations by converting them into
equations in the Cartesian form. Show your complete solutions.
(a) ² = 4 + 4²
(b) p = sin sine
2.
Evaluate the double integral that will find the volume of a solid bounded by
1-2y²-3² and the zy- plane.
(Hint: Use trigonometric substitution to evaluate the formulated double integral.)
3.
Set-up the iterated double integral in polar coordinates that gives the volume
of the solid enclosed by the hyperboloid = = √√1+ + and under the plane z = 5.
4.
Evaluate the double integral:
So de dy.
(Hint: Change the order of integration to dy dr.)
5.
Use Cartesian coordinates to evaluate
JJ v av
dV
where D is the tetrahedron in the first octant bounded by the coordinate planes and the
plane 2x + 3y +z = 6. Use dV= dz dy dr. Draw the solid D.
6.
Set up the triple integral that will give the following:
(a) the volume of R using cylindrical coordinates with dV = r dz dr de where R:0≤
2≤ 1,0 ≤ y ≤ √1-2², 0≤ ≤ √√4-(2²+ y²). Draw the solid R.
(b) the volume of the solid B that lies above the cone z = √√/32² + 3y² and below the
sphere a² + y² +2²= z using spherical coordinates. Draw the solid B](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd63de120-97fc-421b-baa7-0cf355648e9b%2Febe838f5-0b02-42dc-aa0f-f1f05c460ba3%2F08qorlt_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Directions: Solve the following problems NEATLY, COMPLETELY and CORRECTLY. You
must submit the problem set through Canvas in PDF file. Do NOT use graphing devices in your
work.
1.
Identify the surfaces of the following equations by converting them into
equations in the Cartesian form. Show your complete solutions.
(a) ² = 4 + 4²
(b) p = sin sine
2.
Evaluate the double integral that will find the volume of a solid bounded by
1-2y²-3² and the zy- plane.
(Hint: Use trigonometric substitution to evaluate the formulated double integral.)
3.
Set-up the iterated double integral in polar coordinates that gives the volume
of the solid enclosed by the hyperboloid = = √√1+ + and under the plane z = 5.
4.
Evaluate the double integral:
So de dy.
(Hint: Change the order of integration to dy dr.)
5.
Use Cartesian coordinates to evaluate
JJ v av
dV
where D is the tetrahedron in the first octant bounded by the coordinate planes and the
plane 2x + 3y +z = 6. Use dV= dz dy dr. Draw the solid D.
6.
Set up the triple integral that will give the following:
(a) the volume of R using cylindrical coordinates with dV = r dz dr de where R:0≤
2≤ 1,0 ≤ y ≤ √1-2², 0≤ ≤ √√4-(2²+ y²). Draw the solid R.
(b) the volume of the solid B that lies above the cone z = √√/32² + 3y² and below the
sphere a² + y² +2²= z using spherical coordinates. Draw the solid B
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