Using Algebra, find the compliment of F = x(y'z') + yz Then show that FF' =...

1.Find ff if f′′(x)=2+cos(x),f(0)=−7,f(π/2)=7.f″(x)=2+cos⁡(x),f(0)=−7,f(π/2)=7. f(x)= 2.Find f if f′(x)=2cos(x)+sec2(x),−π/2<x<π/2,f′(x)=2cos⁡(x)+sec2⁡(x),−π/2<x<π/2, and f(π/3)=2.f(π/3)=2. f(x)= 3. Find ff if...

1.Find ff if f′′(x)=2+cos(x),f(0)=−7,f(π/2)=7.f″(x)=2+cos⁡(x),f(0)=−7,f(π/2)=7. f(x)= 2.Find f if f′(x)=2cos(x)+sec2(x),−π/2<x<π/2,f′(x)=2cos⁡(x)+sec2⁡(x),−π/2<x<π/2, and f(π/3)=2.f(π/3)=2. f(x)= 3. Find ff if f′′(t)=2et+3sin(t),f(0)=−8,f(π)=−9. f(t)= 4. Find the most general antiderivative of f(x)=6ex+9sec2(x),f(x)=6ex+9sec2⁡(x), where −π2<x<π2. f(x)= 5. Find the antiderivative FF of f(x)=4−3(1+x2)−1f(x)=4−3(1+x2)−1 that satisfies F(1)=8. f(x)= 6. Find ff if f′(x)=4/sqrt(1−x2)  and f(1/2)=−9.

Evaluate using Stokes' theorem: a) ∬ ∇ × ? ∙ ???, if F = (xy, yz,...

Evaluate using Stokes' theorem: a) ∬ ∇ × ? ∙ ???, if F = (xy, yz, xz) in a cylinder z = 1-x two for 0≤ x ≤1, -2 ≤y ≤2

Let f = sin(yz) + ln(x) a) Find the derivative of F at P(1,1,Pi) in the...

Let f = sin(yz) + ln(x) a) Find the derivative of F at P(1,1,Pi) in the direction of v = i+j-k b) Find a vector u in the direction where f increases the fastest c) Find a nonzero vector w with the property that the derivative of f in the direction of w at P(1,1,pi) is 0

1. a) For the surface f(x, y, z) = xy + yz + xz = 3,...

1. a) For the surface f(x, y, z) = xy + yz + xz = 3, find the equation of the tangent plane at (1, 1, 1). b) For the surface f(x, y, z) = xy + yz + xz = 3, find the equation of the normal line to the surface at (1, 1, 1).

Suppose f(x)=x6+3x+1f(x)=x6+3x+1. In this problem, we will show that ff has exactly one root (or zero)...

Suppose f(x)=x6+3x+1f(x)=x6+3x+1. In this problem, we will show that ff has exactly one root (or zero) in the interval [−4,−1][−4,−1]. (a) First, we show that f has a root in the interval (−4,−1)(−4,−1). Since f is a SELECT ONE!!!! (continuous) (differentiable) (polynomial)   function on the interval [−4,−1] and f(−4)= ____?!!!!!!! the graph of y=f(x)y must cross the xx-axis at some point in the interval (−4,−1) by the SELECT ONE!!!!!! (intermediate value theorem) (mean value theorem) (squeeze theorem) (Rolle's theorem) .Thus, ff...

Consider F and C below. F(x, y, z) = yz i + xz j + (xy...

Consider F and C below. F(x, y, z) = yz i + xz j + (xy + 18z) k C is the line segment from (1, 0, −3) to (4, 4, 1) (a) Find a function f such that F = ∇f. f(x, y, z) = (b) Use part (a) to evaluate C ∇f · dr along the given curve C.

Let⇀H=〈−y(2 +x), x, yz〉 (a) Show that ⇀∇·⇀H= 0. (b) Since⇀H is defined and its component...

Let⇀H=〈−y(2 +x), x, yz〉 (a) Show that ⇀∇·⇀H= 0. (b) Since⇀H is defined and its component functions have continuous partials on R3, one can prove that there exists a vector field ⇀F such that ⇀∇×⇀F=⇀H. Show that F = (1/3xz−1/4y^2z)ˆı+(1/2xyz+2/3yz)ˆ−(1/3x^2+2/3y^2+1/4xy^2)ˆk satisfies this property. (c) Let⇀G=〈xz, xyz,−y^2〉. Show that⇀∇×⇀G is also equal to⇀H. (d) Find a function f such that⇀G=⇀F+⇀∇f.

Consider F and C below. F(x, y, z) = yz i + xz j + (xy...

Consider F and C below. F(x, y, z) = yz i + xz j + (xy + 12z) k C is the line segment from (2, 0, −3) to (4, 6, 3) (a) Find a function f such that F = ∇f. f(x, y, z) =       (b) Use part (a) to evaluate    C ∇f · dr along the given curve C.

Let F be a σ-algebra. Show that if A and B are in F, then A...

Let F be a σ-algebra. Show that if A and B are in F, then A ∪ B ∈ F and A ∩ B ∈ F.

Let f(x,y)=xcos(πy)−ysin(πx)f(x,y)=xcos⁡(πy)−ysin⁡(πx). Find the second-order Taylor approximation for ff at the point (1, 2).

Let f(x,y)=xcos(πy)−ysin(πx)f(x,y)=xcos⁡(πy)−ysin⁡(πx). Find the second-order Taylor approximation for ff at the point (1, 2).