If C is the curve given by ?(?)=(1+1sin?)?+(1+3sin2?)?+(1+2sin3?)?, 0≤?≤?2 and F is the radial vector field...

(1 point) If C is the curve given by r(t)=(1+5sint)i+(1+2sin2t)j+(1+3sin3t)k, 0≤t≤π2 and F is the radial...

(1 point) If C is the curve given by r(t)=(1+5sint)i+(1+2sin2t)j+(1+3sin3t)k, 0≤t≤π2 and F is the radial vector field F(x,y,z)=xi+yj+zk, compute the work done by F on a particle moving along C.

Sketch the central field F = (x /(x2 + y2)1/2)i + (y /(x2 + y2)1/2) j...

Sketch the central field F = (x /(x2 + y2)1/2)i + (y /(x2 + y2)1/2) j and the curve C consisting of the parabola y = 2 − x2 from (−1, 1) to (1, 1) to determine whether you expect the work done by F on a particle moving along C to be positive, null, or negative. Then compute the line integral corresponding to the work.

Draw an oriented curve C and a vector field F along C that is not always...

Draw an oriented curve C and a vector field F along C that is not always perpendicular to C, but for whichF.dF 0.

Consider the vector field below: F ⃗=〈2xy+y^2,x^2+2xy〉 Let C be the circular arc of radius 1...

Consider the vector field below: F ⃗=〈2xy+y^2,x^2+2xy〉 Let C be the circular arc of radius 1 starting at (1,0), oriented counter clock wise, and ending at another point on the circle. Determine the ending point so that the work done by F ⃗ in moving an object along C is 1/2.

Given vector field ?⃗ =< −?, ?? > on the curve C given ?⃗(?) =< 3...

Given vector field ?⃗ =< −?, ?? > on the curve C given ?⃗(?) =< 3 cos ?, 3 sin ? > for 0 ≤ ? ≤ 2? a. Determine the circulation of ?⃗ on C b. Determine the flux of ?⃗ on C

find the line integral (total work) of the vector forces field f over the curve c...

find the line integral (total work) of the vector forces field f over the curve c given below. f=xy,xz,y=xyi+xzj+yk. c=straight line from point (0,1,1) to point (2,1,3)

Find the work done by a force field F (x, y) = 3x^2i + (4x +...

Find the work done by a force field F (x, y) = 3x^2i + (4x + y^2)j on a particle that moves along the curve x^2+y^2 =1 for which x>=0 and y>=0 (counterclockwise)

Consider the vector field F= <ey+ycosx , xey+sinx> . a) are the conditions for this field...

Consider the vector field F= <ey+ycosx , xey+sinx> . a) are the conditions for this field to be conservative satisfied? ; b) If they are, find a potential V ; c) Compute the line integral of this field for the following trajectory C : Straight line from (0 , - 1) to (1 , 0) , followed by the curve from (1 , 0) to (2 , 1), followed by the straight line from (2 , 1) to (1 ,...

Consider the vector field F = <2 x y^3 , 3 x^2 y^2+sin y>. Compute the...

Consider the vector field F = <2 x y^3 , 3 x^2 y^2+sin y>. Compute the line integral of this vector field along the quarter-circle, center at the origin, above the x axis, going from the point (1 , 0) to the point (0 , 1). HINT: Is there a potential?

Let C be the curve parametrized by r(t)=(t2+2)i+(1+t)j+2t^2k, with 0≤t≤. Consider the conservative vector field F=yz2i+xz2j+2xyzk,...

Let C be the curve parametrized by r(t)=(t2+2)i+(1+t)j+2t^2k, with 0≤t≤. Consider the conservative vector field F=yz2i+xz2j+2xyzk, Calculate ∫CF⋅dr