Q8. Let G be the cylindrical solid bounded by x2 + y2 = 9, the xy-plane,...

(3) Let D denote the disk in the xy-plane bounded by the circle with equation y2...

(3) Let D denote the disk in the xy-plane bounded by the circle with equation y2 = x(6−x). Let S be the part of the paraboloid z = x2 +y2 + 1 that lies above the disk D. (a) Set up (do not evaluate) iterated integrals in rectangular coordinates for the following. (i) The surface area of S. (ii) The volume below S and above D. (b) Write both of the integrals of part (a) as iterated integrals in cylindrical...

Use the Divergence Theorem to evaluate S F · N dS and find the outward flux...

Use the Divergence Theorem to evaluate S F · N dS and find the outward flux of F through the surface of the solid bounded by the graphs of the equations. F(x, y, z) = x2i + xyj + zk Q: solid region bounded by the coordinate planes and the plane 3x + 5y + 6z = 30

Use the Divergence Theorem to evaluate S F · N dS and find the outward flux...

Use the Divergence Theorem to evaluate S F · N dS and find the outward flux of F through the surface of the solid bounded by the graphs of the equations. F(x, y, z) = x2i + xyj + zk Q: solid region bounded by the coordinate planes and the plane 3x + 4y + 6z = 24

. Let C be the curve x2+y2=1 lying in the plane z = 1. Let ?=(?−?)?̂+??...

. Let C be the curve x2+y2=1 lying in the plane z = 1. Let ?=(?−?)?̂+?? = (a) Calculate ∇×? (b) Calculate ∫?∙?? F · ds using a parametrization of C and a chosen orientation for C. (c) Write C = ∂S for a suitably chosen surface S and, applying Stokes’ theorem, verify your answer in (b) (d) Consider the sphere with radius √22 and center the origin. Let S’ be the part of the sphere that is above the...

Use the Divergence Theorem to evaluate F.N dS and find the outward flux of F through...

Use the Divergence Theorem to evaluate F.N dS and find the outward flux of F through the surface of the solid bounded by the graphs of the equations. F(x, y, z) = xi + xyj + zk Q: solid region bounded by the coordinate planes and the plane 3x + 4y + z = 24

Let S be the boundary of the solid bounded by the paraboloid z=x^2+y^2 and the plane...

Let S be the boundary of the solid bounded by the paraboloid z=x^2+y^2 and the plane z=16 S is the union of two surfaces. Let S1 be a portion of the plane and S2 be a portion of the paraboloid so that S=S1∪S2 Evaluate the surface integral over S1 ∬S1 z(x^2+y^2) dS= Evaluate the surface integral over S2 ∬S2 z(x^2+y^2) dS= Therefore the surface integral over S is ∬S z(x^2+y^2) dS=

Use the divergence theorem to find the outward flux ∫ ∫ S F · n dS  ...

Use the divergence theorem to find the outward flux ∫ ∫ S F · n dS   of the vector field F  =   cos(10y + 5z) i  +  9 ln(x2 + 10z) j  +  3z2 k,  where S is the surface of the region bounded within by the graphs of  z  =  √ 25 − x2 − y2  ,  x2 + y2  =  7,  and  z  =  0. Please explain steps. Thank you :)

draw the solid bounded above z=9/2-x2-y2 and bounded below x+y+z=1. Find the volume of this solid.  

draw the solid bounded above z=9/2-x2-y2 and bounded below x+y+z=1. Find the volume of this solid.  

find the volume of the solid below the surface z=2-square root ( 1+x2+y2)and above the xy-plane...

find the volume of the solid below the surface z=2-square root ( 1+x2+y2)and above the xy-plane can someone help with this I am in calculus 3 ( multivariable calculus)?

F(x, y, z) =< 3xy^2 , xe^z , z^3 >, S is the solid bounded by...

F(x, y, z) =< 3xy^2 , xe^z , z^3 >, S is the solid bounded by the cylinder y2 + z2 = 1 and the planes x = −1 and x = 2 Find he surface area using surface integrals. DO NOT USE Divergence Theorem. Answer: 9π/2