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Triple Integrals In Cylindrical Coordinates | Calculus - Mathematics PDF Download

In this section we want do take a look at triple integrals done completely in Cylindrical Coordinates. Recall that cylindrical coordinates are really nothing more than an extension of polar coordinates into three dimensions. The following are the conversion formulas for cylindrical coordinates.
Triple Integrals In Cylindrical Coordinates | Calculus - Mathematics
In order to do the integral in cylindrical coordinates we will need to know what d V dV will become in terms of cylindrical coordinates. We will be able to show in the Change of Variables section of this chapter that,
dV=rdzdrdθ
The region, E , over which we are integrating becomes,
Triple Integrals In Cylindrical Coordinates | Calculus - Mathematics
Note that we’ve only given this for E ’s in which D is in the x y -plane. We can modify this accordingly if D is in the y z -plane or the x z -plane as needed.
In terms of cylindrical coordinates a triple integral is,
Don’t forget to add in the r and make sure that all the x ’s and y ’s also get converted over into cylindrical coordinates. Let’s see an example.

Example 1 Evaluate where E is the region that lies below the plane z=x+2 above the xy-plane and between the cylinders x²+y²= 1 and x²+y²=4x²+y²= 4.
Solution: There really isn’t too much to do with this one other than do the conversions and then evaluate the integral.
We’ll start out by getting the range for z in terms of cylindrical coordinates.
Triple Integrals In Cylindrical Coordinates | Calculus - Mathematics
Remember that we are above the xy-plane and so we are above the plane z = 0
Next, the region D is the region between the two circles x²+y²=1 and x²+y²= 4 in the xy-plane and so the ranges for it are,
Here is the integral.
Triple Integrals In Cylindrical Coordinates | Calculus - Mathematics
Just as we did with double integral involving polar coordinates we can start with an iterated integral in terms of x, y, and z and convert it to cylindrical coordinates.
Example 2 Convert xyzdzdxdy into an integral in cylindrical coordinates.
Solution: Here are the ranges of the variables from this iterated integral.

The first two inequalities define the region D and since the upper and lower bounds for the x ’s are Triple Integrals In Cylindrical Coordinates | Calculus - Mathematics and x = 0 we know that we’ve got at least part of the right half a circle of radius 1 centered at the origin. Since the range of y ’s is − 1 ≤ y ≤ 1 we know that we have the complete right half of the disk of radius 1 centered at the origin. So, the ranges for D in cylindrical coordinates are,
Triple Integrals In Cylindrical Coordinates | Calculus - Mathematics
All that’s left to do now is to convert the limits of the z range, but that’s not too bad.

On a side note notice that the lower bound here is an elliptic paraboloid and the upper bound is a cone. Therefore, E E is a portion of the region between these two surfaces. The integral is,
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FAQs on Triple Integrals In Cylindrical Coordinates - Calculus - Mathematics

1. What are cylindrical coordinates?

Cylindrical coordinates are a type of coordinate system used to locate points in three-dimensional space. They consist of a radial distance (ρ), an azimuthal angle (θ), and a height or vertical distance (z). These coordinates are particularly useful when dealing with cylindrical or rotational symmetry.

2. How are triple integrals expressed in cylindrical coordinates?

In cylindrical coordinates, the triple integral is expressed as ∭f(ρ, θ, z)ρdρdθdz. Here, f(ρ, θ, z) represents the function being integrated, and ρ, θ, and z represent the respective variables of the coordinate system. The limits of integration for each variable must also be appropriately determined based on the region of interest.

3. What are the advantages of using cylindrical coordinates in triple integrals?

Cylindrical coordinates offer several advantages in triple integrals. Firstly, they are particularly well-suited for problems with cylindrical symmetry, as the equations often simplify significantly. Secondly, cylindrical coordinates can help reduce the complexity of the integral by separating variables and integrating in a more intuitive manner. Finally, they are often easier to visualize and apply in real-world scenarios, such as calculating volumes or masses in cylindrical shapes.

4. How do you convert between rectangular and cylindrical coordinates?

To convert from rectangular coordinates (x, y, z) to cylindrical coordinates (ρ, θ, z), you can use the following equations: ρ = sqrt(x^2 + y^2) θ = atan2(y, x) z = z Here, atan2(y, x) is the inverse tangent function that takes into account the signs of both x and y to determine the correct angle θ. Conversely, to convert from cylindrical to rectangular coordinates, you would use the equations: x = ρ*cos(θ) y = ρ*sin(θ) z = z

5. How do you determine the limits of integration in cylindrical coordinates?

Determining the limits of integration in cylindrical coordinates depends on the specific region of interest. In general, the limits for ρ, θ, and z are determined by the boundaries of the region being integrated over. These boundaries can be defined by geometric shapes, equations, or inequalities. It is important to carefully analyze the region and determine the appropriate limits for each variable to accurately evaluate the triple integral.

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