c Dr Oksana Shatalov, Spring 2014 1 Spring 2014 Math 251 Week in Review 6 courtesy: Oksana Shatalov (covering Sections 13.1-13.3 ) 13.1-13.3 : Double Integral Key Points • FUBINI’s THEOREM:If f is continuous on on the rectangle R = [a, b] × [c, d] then Z ZZ b Z d a R Z d Z c c b f (x, y) dxdy. f (x, y) dydx = f (x, y) dA = a • If g and h are continuous functions of one variable and R = [a, b] × [c, d] then ! Z ! ZZ Z b g(x)h(y) dA = R d g(x)dx h(y) dy . a c • If f (x, y) ≥ 0 and f is continuous on the region D then the volume V of the solid S that lies above D and under the graph of f , i.e. S = (x, y, z) ∈ R3 | 0 ≤ z ≤ f (x, y), (x, y) ∈ D , is ZZ V = f (x, y) dA. D • If D is a region of type I such that D = {(x, y)| a ≤ x ≤ b, g1 (x) ≤ y ≤ g2 (x)} then ZZ b Z g2 (x) Z f (x, y) dA = f (x, y) dydx. D a g1 (x) • If D is a region of type II s.t. D = {(x, y)| c ≤ y ≤ d, h1 (y) ≤ x ≤ h2 (y)} then ZZ Z d Z h2 (y) f (x, y) dA = D f (x, y) dxdy. c h1 (y) 1. Reverse the order of integratioin the following integrals: Z 1 Z 1−x2 (a) f (x, y) dydx √ − 1−x2 0 Z 3 Z 9 (b) f (x, y) dxdy 0 y2 c Dr Oksana Shatalov, Spring 2014 Z −2 Z x+6 2 Z 0 x2 Z f (x, y) dydx. f (x, y) dydx + (c) −6 0 −2 0 2. Evaluate the integral Z 0 3 Z 9 y cos(x2 )dxdy. y2 3. Find the volume of the solid that lies above the region D = {(x, y) : x2 + y 2 ≤ 2x, y ≥ 0} and under the graph of ρ(x, y) = y. c Dr Oksana Shatalov, Spring 2014 ZZ 4. Find the integral R ZZ √ 5. Evaluate D y 2 , x = 4, y = 0. Z 1 Z y cos y dA , where R = {(x, y)| 1 ≤ x ≤ e4 , 0 ≤ y ≤ π/2}. x y dA where D is the region in the first quadrant bounded by x = 1 + x2 2 6. Evaluate 0 3 2x2 x3 sin y 3 dy dx . c Dr Oksana Shatalov, Spring 2014 4 2 7. Sketch the region bounded by y 2 = 2x (or x = y2 ), the line x + y = 4 and the x-axis, in the first quadrant. Find the area of the region using a double integral. Z 2 Z 4 8. Describe the solid which volume is given by the integral 0 volume. 9. Find the volume of the solid bounded by the following planes z = 1 + x + y, z = 0, x + y = 1, x = 0, y = 0. y2 (x2 + y 2 )dx dy and find the