1. Evaluate the double integral∫ ∫

R2xy dx dy and R is bounded by y = x, y = 2− x

and y = 0.

Answer:∫

1

0

∫

2−y

y2xy dx dy =

∫

1

0

(4y − y2) dy =2

3

2. Evaluate the double integral∫ ∫

Re−x2

−y2

dx dy where R = {(x, y) : 1 ≤ x2 + y2 ≤4}.Answer:

∫

2π

0

∫

2

1

re−r2

dr dθ =∫

2π

0

1

2

(

−e−4 + e−1)

dθ = π(e−1 − e−4).

3. Evaluate the double integral∫ ∫

R

√

16 − x2 − y2 dx dy where R is inside x2+y2 = 9

and outside x2 + y2 = 4 and between y = x and y = −x with y ≥ 0.

Answer:∫

3π/4

π/4

∫

3

2

r√

16 − r2 dr dθ =1

3

∫

3π/4

π/4

(123/2 − 73/2) dθ =π

6(123/2 − 73/2).

4. Evaluate the double integral∫ ∫

R(8 + 3x − y2) dx dy where R is bounded by

y = 2x − 1, y = 2x + 5, y = 1 − 3x and y = 7 − 3x.Answer: u = y + 3x and v = y − 2x implies x = 1

5(u − v) and y = 1

5(2u + 3v).

|J | = 1

5

1

5

∫

5

−1

∫

7

1

(

8 +3

5(u − v) − 1

25(2u + 3v)2

)

du dv =1

125

∫

5

−1

(1104−378v−54v2) dv =

−36

25.

5. Compute the volume of the solid bounded by x + 2y + z = 8 and the coordinateplanes, x = 0, y = 0, and z = 0.

Answer:∫

4

0

∫

8−2y

0

(8−x−2y) dx dy =∫

4

0

(

64 − 32y − 1

2(5 − 2y)2 + 4y2

)

dy =128

3.

6. Compute the volume of the solid under z = 6 − x2 − y2 and inside x2 + y2 = 1.

Answer:∫

2π

0

∫

1

0

(6 − r2)r dr dθ =∫

2π

0

(

11

4

)

dθ =11π

2.

7. Find the surface area of that portion of the paraboloid z = 1 + x2 + y2 that liesbelow the plane z = 5.

Answer:∫ ∫

S

√

1 + 4x2 + 4y2 dx dy =∫

2π

0

∫

2

0

r√

1 + 4r2 dr dθ =π

6(173/2 − 1).

8. Determine the surface area of the portion of z = 4y + 3x2 between y = 2x, y = 0and x = 2.

Answer:∫

2

0

∫

2x

0

√17 + 36x2 dy dx =

∫

2

0

2x√

17 + 36x2 dx =2

3

(

(161)3/2 − (17)3/2)

.

9. Determine the surface area of the surface defined by x = u, y = v + 2, z = 2uv for0 ≤ u ≤ 2 and 0 ≤ v ≤ 1.Answer: |〈1, 0, 2v〉×〈0, 1, 2u〉| =

√1 + 4u2 + 4v2. (Put integration on a calculator.)

∫

1

0

int20√

1 + 4u2 + 4v2 du dv = 5.2335.

10. Evaluate the triple integral∫ ∫ ∫

Q6xz2 dV where Q is the tetrahedron bounded

by −2x + y + z = 4 and the coordinate planes, x = 0, y = 0 and z = 0.

Answer:∫

0

−2

∫

2x+4

0

∫

4+2x−y

0

2xz3 dz dy dx =∫

0

−2

∫

2x+4

0

(128x + 192x2 − 96xy + 96x3 − 96x2y + 24xy2 + 16x4 − 24x3y + 12x2y2 −

2xy3) dy dx =∫

0

−2

(8x5 + 64x4 + 192x3 + 256x2 + 128x) dx = −256

15.

11. Evaluate the triple integral∫ ∫ ∫

Q(x − y) dV where Q is bounded by z = x2 + y2

and z = 4.

Answer:∫

2π

0

∫

2

0

∫

4

r2

(r2 cos θ − r2 sin θ) dz dr dθ = 0.

12. Convert to polar coordinates and evaluate the integral

∫

2

0

∫

√

4−x2

−

√

4−x2

x2 dx dy.

Answer:∫ π/2

−π/2

∫

2

0

r3 cos2 θ dr dθ =∫ π/2

−π/2

(2 + 2 cos (2θ)) dθ = 2π.