Let C be the curve parameterized by the path c: [0, 1] - → R2 c...

Let C be the curve parameterized by the path c: [0, 1] - → R2

Question 4.Let C be the curve in three dimensions with the following parameterization for 0≤t≤2: (sin(πt71),t2−3t+...

Question 4.Let C be the curve in three dimensions with the following parameterization for 0≤t≤2: (sin(πt71),t2−3t+ 2,t3−3t). Find the value of ∫C (cos(x+y) +ze^xz)dx+ cos(x+y)dy+ (xe^xz+ 2)dz.

i)Please state if the following equations are exact or not: (a) (sin(xy) − xy cos(xy))dx +...

i)Please state if the following equations are exact or not: (a) (sin(xy) − xy cos(xy))dx + x^2 cos(xy)dy = 0 (b) (x^3 + xy^2 )dx + (x^2 y + y^3 )dy = 0 ii) Determine if the following equation is exact, and if it is exact, find its complete integral in the form g(x, y) = C: (3(x)^2 + 2(y)^2 )dx + (4xy + 6(y)^2 )dy = 0

Problem 7. Consider the line integral Z C y sin x dx − cos x dy....

Problem 7. Consider the line integral Z C y sin x dx − cos x dy. a. Evaluate the line integral, assuming C is the line segment from (0, 1) to (π, −1). b. Show that the vector field F = <y sin x, − cos x> is conservative, and find a potential function V (x, y). c. Evaluate the line integral where C is any path from (π, −1) to (0, 1).

Let C be the closed, piecewise smooth curve formed by traveling in straight lines between the...

Let C be the closed, piecewise smooth curve formed by traveling in straight lines between the points (0, 0, 0), (2, 0, 4), (3, 2, 6), (1, 2, 2), and back to the origin, in that order. (Thus the surface S lying interior to C is contained in the plane z = 2x.) Use Stokes' theorem to evaluate the following integral. C (z cos(x)) dx + (x^2yz) dy + (yz) dz

Evaluate Integral (subscript c) z dx + y dy − x dz, where the curve C...

Evaluate Integral (subscript c) z dx + y dy − x dz, where the curve C is given by c(t) = t i + sin t j + cost k for 0 ≤ t ≤ π.

(* Problem 3 *) (* Consider differential equations of the form a(x) + b(x)dy /dx=0 *)...

(* Problem 3 *) (* Consider differential equations of the form a(x) + b(x)dy /dx=0 *) \ (* Use mathematica to determin if they are in Exact form or not. If they are, use CountourPlot to graph the different solution curves 3.a 3x^2+y + (x+3y^2)dy /dx=0 3.b cos(x) + sin(x) dy /dx=0 3.c y e^xy+ x e^xydy/dx=0

1- Find the solution of the following equations. For each equation, 2- determine the type of...

1- Find the solution of the following equations. For each equation, 2- determine the type of the category that the equation belongs to. 1. y/x cos y/x dx − ( x/y sin y/x + cos y/x ) dy = 0 2. x(1 − y^2 )dx + y(8 − x^2 )dy = 0 3. (x^2 − x + y^2 )dx − (e^y − 2xy)dy = 0 4. 2x sin 3ydx + 3x^2 cos 3ydy = 0 5. (x ln x −...

If a circle C with radius 1 rolls along the outside of the circle x2 +...

If a circle C with radius 1 rolls along the outside of the circle x2 + y2 = 49, a fixed point P on C traces out a curve called an epicycloid, with parametric equations x = 8 cos(t) − cos(8t), y = 8 sin(t) − sin(8t). Use one of the formulas below to find the area it encloses. A = C x dy = −C  y dx = 1/2 C x dy − y dx

Let w(x,y,z) = x^2+y^2+z^2 where x=sin(8t), y=cos(8t) , z= e^t Calculate dw/dt by first finding dx/dt,...

Let w(x,y,z) = x^2+y^2+z^2 where x=sin(8t), y=cos(8t) , z= e^t Calculate dw/dt by first finding dx/dt, dy/dt, and dz/dt and using the chain rule dx/dt = dy/dt= dz/dt= now using the chain rule calculate dw/dt 0=

Evaluate double integral Z 2 0 Z 1 y/2 cos(x^2 )dx dy (integral from 0 to...

Evaluate double integral Z 2 0 Z 1 y/2 cos(x^2 )dx dy (integral from 0 to 2)(integral from y/2 to 1) for cos(x^2) dx dy