The function f(x, y) = x^−2 y^3 is a potential for a vector field F. Use...

Consider the vector field F = ( 2 x e y − 3 ) i +...

Consider the vector field F = ( 2 x e y − 3 ) i + ( x 2 e y + 2 y ) j , (a) Find all potential functions f such that F = ∇ f . (b) Use (a) to evaluate ∫ C F ⋅ d r , where C is the curve r ( t ) = 〈 t , t 2 〉 , 1 ≤ t ≤ 2 .

(a) Is the vector field F = <e^(−x) cos y, e^(−x) sin y> conservative? (b) If...

(a) Is the vector field F = <e^(−x) cos y, e^(−x) sin y> conservative? (b) If so, find the associated potential function φ. (c) Evaluate Integral C F*dr, where C is the straight line path from (0, 0) to (2π, 2π). (d) Write the expression for the line integral as a single integral without using the fundamental theorem of calculus.

1. (a) Determine whether or not F is a conservative vector field. If it is, find...

1. (a) Determine whether or not F is a conservative vector field. If it is, find the potential function for F. (b) Evaluate R C1 F · dr and R C2 F · dr where C1 is the straight line path from (0, −1) to (3, 0), while C2 is the union of two straight line paths: first piece from (0, −1) to (0, 0) and then second piece from (0, 0) to (3, 0). (When applicable, use the Fundamental...

Suppose that the vector field F(x,y,z) has potential function f(x,y,z) = y2+ 3xz and C is...

Suppose that the vector field F(x,y,z) has potential function f(x,y,z) = y2+ 3xz and C is a path from (1,1,−1) to (0,5,π). Compute ∫CF·dr.

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?

For each vector field F~ (x, y) = hP(x, y), Q(x, y)i, find a function f(x,...

For each vector field F~ (x, y) = hP(x, y), Q(x, y)i, find a function f(x, y) such that F~ (x, y) = ∇f(x, y) = h ∂f ∂x , ∂f ∂y i by integrating P and Q with respect to the appropriate variables and combining answers. Then use that potential function to directly calculate the given line integral (via the Fundamental Theorem of Line Integrals): a) F~ 1(x, y) = hx 2 , y2 i Z C F~ 1...

Let F ( x , y ) = 〈 e^x + y^2 − 3 , −...

Let F ( x , y ) = 〈 e^x + y^2 − 3 , − e ^(− y) + 2 x y + 4 y 〉. a) Determine if F ( x , y ) is a conservative vector field and, if so, find a potential function for it. b) Calculate ∫ C F ⋅ d r where C is the curve parameterized by r ( t ) = 〈 2 t , 4 t + sin ⁡ π...

Let F(x,y,z) = yzi + xzj + (xy+2z)k show that vector field F is conservative by...

Let F(x,y,z) = yzi + xzj + (xy+2z)k show that vector field F is conservative by finding a function f such that and use that to evaluate where C is any path from (1,0,-2) to (4,6,3)

Consider the vector field →F=〈3x+7y,7x+5y〉F→=〈3x+7y,7x+5y〉 Is this vector field Conservative? yes or no If so: Find...

Consider the vector field →F=〈3x+7y,7x+5y〉F→=〈3x+7y,7x+5y〉 Is this vector field Conservative? yes or no If so: Find a function ff so that →F=∇fF→=∇f f(x,y) =_____ + K Use your answer to evaluate ∫C→F⋅d→r∫CF→⋅dr→ along the curve C: →r(t)=t2→i+t3→j,  0≤t≤3r→(t)=t2i→+t3j→,  0≤t≤3

Calculate the line integral of the vector field ?=〈?,?,?2+?2〉F=〈y,x,x2+y2〉 around the boundary curve, the curl of...

Calculate the line integral of the vector field ?=〈?,?,?2+?2〉F=〈y,x,x2+y2〉 around the boundary curve, the curl of the vector field, and the surface integral of the curl of the vector field. The surface S is the upper hemisphere ?2+?2+?2=36, ?≥0x2+y2+z2=36, z≥0 oriented with an upward‑pointing normal. (Use symbolic notation and fractions where needed.) ∫?⋅??=∫CF⋅dr= curl(?)=curl(F)= ∬curl(?)⋅??=∬Scurl(F)⋅dS=