(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...

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

If C is the curve given by ?(?)=(1+1sin?)?+(1+3sin2?)?+(1+2sin3?)?, 0≤?≤?2 and F is the radial vector field ?(?,?,?)=??+??+?? compute the work done by F on a particle moving along C.

Find the work done by the force field F(x,y,z) = yz i + xz j +...

Find the work done by the force field F(x,y,z) = yz i + xz j + xy k acting along the curve given by r(t) = t3 i + t2 j + tk from the point (1,1,1) to the point (8,4,2).

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.

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

Let r(t)=<x(t),y(t)>, from a<=t<=b, be a smooth curve and F(x,y)=xi+yj. What is the work done by...

Let r(t)=<x(t),y(t)>, from a<=t<=b, be a smooth curve and F(x,y)=xi+yj. What is the work done by F on the curve equal to? a) 1/2(x^2(b)+y^2(b)-x^2(a)-y^2(a)) b) x(b)y(b)-x(a)y(a) c) x^2(b)+y^2(b)-x^2(a)-y^2(a) d)1/2(x(b)y(b)-x(a)y(a))

let r(t) = < x(t), y(t)>, a<t<b, be a smooth curve and F(x,y) = xi+yj, the...

let r(t) = < x(t), y(t)>, a<t<b, be a smooth curve and F(x,y) = xi+yj, the work done by F on the curve equals a) 1/2(x(b)^2+y(b)^2-x(a)^2-x(a)^2) b) x(b)^2+y(b)^2-x(a)^2-x(a)^2 c) x(b)y(b)-x(a)y(a) d)1/2(x(b)y(b)-x(a)y(a)) honestly, l don't remember clearly of the option. can you derive from the question to give answers.

Consider the curve r(t) = cost(t)i + sin(t)j + (2/3)t2/3k Find: a. the length of the...

Consider the curve r(t) = cost(t)i + sin(t)j + (2/3)t2/3k Find: a. the length of the curve from t = 0 to t = 2pi. b. the equation of the tangent line at the point t = 0. c. the speed of the point moving along the curve at the point t = 2pi

Given that the acceleration vector is a(t)=(-9 cos(3t))i+(-9 sin(3t))j+(-5t)k, the initial velocity is v(0)=i+k, and the...

Given that the acceleration vector is a(t)=(-9 cos(3t))i+(-9 sin(3t))j+(-5t)k, the initial velocity is v(0)=i+k, and the initial position vector is r(0)=i+j+k, compute: A. The velocity vector v(t) B. The position vector r(t)

Suppose r(t) = t2i + (t3 −t)j + (t−1)2k is the position vector of a moving...

Suppose r(t) = t2i + (t3 −t)j + (t−1)2k is the position vector of a moving particle. a. [2] At what point does the particle pass through the xy-plane? b. [2] What is its velocity vector at this point? c. [4] What is the radius of curvature of the trajectory at this point?

Find the work done by the force field F(x,y,z)=6xi+6yj+7k on a particle that moves along the...

Find the work done by the force field F(x,y,z)=6xi+6yj+7k on a particle that moves along the helix r(t)=5cos(t)i+5sin(t)j+7tk, 0 ≤ t≤ 2π