Let c(t) = (t^2, t sin(π t), t cos(π t)). Find the intersection point of the...

Solve the initial value problem 2(sin(t)dydt+cos(t)y)=cos(t)sin^3(t) for 0<t<π0<t<π and y(π/2)=13.y(π/2)=13. Put the problem in standard form....

Solve the initial value problem 2(sin(t)dydt+cos(t)y)=cos(t)sin^3(t) for 0<t<π0<t<π and y(π/2)=13.y(π/2)=13. Put the problem in standard form. Then find the integrating factor, ρ(t)= and finally find y(t)=

Determine the tangent line at point t = π/3 of the curve defined by the parametric...

Determine the tangent line at point t = π/3 of the curve defined by the parametric equations: X = 2 sin (t) Y = 5 cos (t)

. Find the arc length of the curve r(t) = <t^2 cos(t), t^2 sin(t)> from the...

. Find the arc length of the curve r(t) = <t^2 cos(t), t^2 sin(t)> from the point (0, 0) to (−π^2 , 0).

Let ? (?, ?) = (? 2 cos ? + cos ?)? + (2? sin ?...

Let ? (?, ?) = (? 2 cos ? + cos ?)? + (2? sin ? − ? sin ?)? . a. Show that ?⃗ is conservative and find a potential function f such that ∇? = ?⃗ b. Evaluate ∫ ? ∙ ?? ? where C is the line segment from (0, ?/4 ) to ( ?/6 , ?/2 )

6) please show steps and explanation. a)Suppose r(t) = < cos(3t), sin(3t),4t >. Find the equation...

6) please show steps and explanation. a)Suppose r(t) = < cos(3t), sin(3t),4t >. Find the equation of the tangent line to r(t) at the point (-1, 0, 4pi). b) Find a vector orthogonal to the plane through the points P (1, 1, 1), Q(2, 0, 3), and R(1, 1, 2) and the area of the triangle PQR.

3. Let P = (a cos θ, b sin θ), where θ is not a multiple...

3. Let P = (a cos θ, b sin θ), where θ is not a multiple of π/2 be a point on the ellipse (x 2/ a2 )+ (y 2/ b 2) = 1, where a ≥ b > 0; and let P1 = (a cos θ, a sin θ) the corresponding on the circle x 2 /a2 + y 2/ a2 = 1. Prove that the tangent to the ellipse at P and the tangent to the circle at...

Let r(t) = < 2 + cost, sin t, t > a. Find the tangent line...

Let r(t) = < 2 + cost, sin t, t > a. Find the tangent line at t = α b. Find the first four positive values of α, for which the tangent line intersects the z-axis (with reasoning)

Let r = sin 3θ. Find the equation of the tangent line at θ = π⁄6.

Let r = sin 3θ. Find the equation of the tangent line at θ = π⁄6.

Find the point of intersection of the line x(t) = (0, 1, 3) + (–2, –...

Find the point of intersection of the line x(t) = (0, 1, 3) + (–2, – 1, 2)t with the plane 4x + 5y – 4z = 9. And Find the distance from the point (2, 3, 1) to the plane 3x – 2y + z = 9

An implicitly defined function of x, y and z is given along with a point P...

An implicitly defined function of x, y and z is given along with a point P that lies on the surface: sin(xy) + cos(yz) = 0, at P = (2, π/12, 4) Use the gradient ∇F to: (a) find the equation of the normal line to the surface at P. (b) find the equation of the plane tangent to the surface at P.