Find the curvatures of the given curves. i: r(t) = ⟨t, t2/2, t2⟩ ii: r(t) =...

Find T, N, and B for the given space curve. r(t) = (t2-9)i + (2t-9)j +...

Find T, N, and B for the given space curve. r(t) = (t2-9)i + (2t-9)j + 4k

Find T, N, B, aT, aN at t=2 (#13) 13. r(t) = (t3/3)i + (t2/2)j when...

Find T, N, B, aT, aN at t=2 (#13) 13. r(t) = (t3/3)i + (t2/2)j when t > 0

Find the speed of the particle with position function r(t) = (t2 − 2t)⃗i − 2t⃗j...

Find the speed of the particle with position function r(t) = (t2 − 2t)⃗i − 2t⃗j + (t2 − t)⃗k when t = 0.

6. Given vector function r(t) = t2 − 2t, 1 + 3t, 1 3 t 3...

6. Given vector function r(t) = t2 − 2t, 1 + 3t, 1 3 t 3 + 1 2 t 2 i (a) Find r 0 (t) (b) Find the unit tangent vector to the space curve of r(t) at t = 3. (c) Find the vector equation of the tangent line to the curve at t = 3

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

Find the curvature of the curve r(t)= < et , t , t2 >.

Find the curvature of the curve r(t)= < et , t , t2 >.

Find the osculating plane of r(t) =< t2, 32 t3, t > at (1, 2/3, 1)

Find the osculating plane of r(t) =< t2, 32 t3, t > at (1, 2/3, 1)

Find the derivative r '(t) of the vector function r(t). <t cos 3t , t2, t...

Find the derivative r '(t) of the vector function r(t). <t cos 3t , t2, t sin 3t>

Given r(t) = (et cos(t) )i + (et sin(t) )j + 2k. Find (i) unit tangent...

Given r(t) = (et cos(t) )i + (et sin(t) )j + 2k. Find (i) unit tangent vector T. (ii) principal unit normal vector N.

Consider the following vector function. r(t) = <9t,1/2(t)2,t2> (a) Find the unit tangent and unit normal...

Consider the following vector function. r(t) = <9t,1/2(t)2,t2> (a) Find the unit tangent and unit normal vectors T(t) and N(t). (b) Use this formula to find the curvature. κ(t) =