Guidelines

How do you find the region of integration?

How do you find the region of integration?

The region of integration is the blue triangle shown on the left, bounded below by the line y=x3 and above by y=2, since we are integrating y along the red line from y=x3 to y=2. Since we are integrating x from 0 to 6, the left edge of the triangle is at x=0, and we integrate all the way to the corner at (x,y)=(6,2).

What is the correct relation of polar coordinates in a double integral?

The area dA in polar coordinates becomes rdrdθ. Use x=rcosθ,y=rsinθ, and dA=rdrdθ to convert an integral in rectangular coordinates to an integral in polar coordinates. Use r2=x2+y2 and θ=tan−1(yx) to convert an integral in polar coordinates to an integral in rectangular coordinates, if needed.

What is region r?

Region R contains all the points (x,y) such that x2+y2≤100 and sin(x+y)≥0.

What are some examples of double integrals over general regions?

Let’s take a look at some examples of double integrals over general regions. Example 1 Evaluate each of the following integrals over the given region D D . ∬ D 4xy −y3dA ∬ D 4 x y − y 3 d A, D D is the region bounded by y = √x y = x and y =x3 y = x 3.

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How to develop double integrals of F over D?

In order to develop double integrals of f over D, we extend the definition of the function to include all points on the rectangular region R and then use the concepts and tools from the preceding section. But how do we extend the definition of f to include all the points on R?

What is the notation for a double integral?

This notation is really just a fancy way of saying we are going to use all the points, (x,y) ( x, y), in which both of the coordinates satisfy the two given inequalities. The double integral for both of these cases are defined in terms of iterated integrals as follows.

How do you calculate double integrals in polar coordinates?

In computing double integrals to this point we have been using the fact that dA= dxdy d A = d x d y and this really does require Cartesian coordinates to use. Once we’ve moved into polar coordinates dA≠ drdθ d A ≠ d r d θ and so we’re going to need to determine just what dA d A is under polar coordinates.