The curve r(t) = <sin(t),sin(t+sin(t))> intersects itself at (0, 0). Find the acute angle (in radians)...

. 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 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)

Find r(t) for the given conditions. r''(t) = −7 cos(t)j − 3 sin(t)k,     r'(0) = 3k,     r(0) =...

Find r(t) for the given conditions. r''(t) = −7 cos(t)j − 3 sin(t)k,     r'(0) = 3k,     r(0) = 7j

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

2. (12 pts.)If r"(t) = 〈1, t, sin(t)〉 , r'(0) = 〈2, 3, 1〉 and r(0)...

2. (12 pts.)If r"(t) = 〈1, t, sin(t)〉 , r'(0) = 〈2, 3, 1〉 and r(0) = 〈1, 0, 1〉, find r(t).

Let C be a closed curve parametrized by r(t) = sin ti+cos tj with 0 ≤...

Let C be a closed curve parametrized by r(t) = sin ti+cos tj with 0 ≤ t ≤ 2π. Let F = yi − xj be a vector field. (a) Evaluate the line integral xyds. C (b) Find the circulation of F over C. (c) Find the flux of F over C.

6.) Let ~r(t) =< 3 cos t, -2 sin t > for 0 < t <...

6.) Let ~r(t) =< 3 cos t, -2 sin t > for 0 < t < pi. a) Sketch the curve. Make sure to pay attention to the parameter domain, and indicate the orientation of the curve on your graph. b) Compute vector tangent to the curve for t = pi/4, and sketch this vector on the graph.

1. Graph the curve given in parametric form by x = e t sin(t) and y...

1. Graph the curve given in parametric form by x = e t sin(t) and y = e t cos(t) on the interval 0 ≤ t ≤ π2. 2. Find the length of the curve in the previous problem. 3. In the polar curve defined by r = 1 − sin(θ) find the points where the tangent line is vertical.

Find the area of the region that is inside the curve r = 1 + sin...

Find the area of the region that is inside the curve r = 1 + sin θ but outside the curve r = 2 − sin θ.

17.)Find the curvature of r(t) at the point (1, 0, 0). r(t) = et cos(t), et...

17.)Find the curvature of r(t) at the point (1, 0, 0). r(t) = et cos(t), et sin(t), 3t κ =