Parametrize the curve r(t) = <5sin(t), 5cos(t), 12t> with respect to arc length, measured from the...

Find the length L of the curve R(t)=5cos(t)i−5sin(t)j+3tk over the interval [2,5]. L= ?

Find the length L of the curve R(t)=5cos(t)i−5sin(t)j+3tk over the interval [2,5]. L= ?

. 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).

Write the curve given by r(t)=((3/2)t)i+(t^3/2)j as a function r(s) parameterized by the arc length s...

Write the curve given by r(t)=((3/2)t)i+(t^3/2)j as a function r(s) parameterized by the arc length s from the point where t=0. Write your answer using standard unit vector notation.

Calculate the arc length of the indicated portion of the curve r(t). r(t) = 6√2 t^((3⁄2)...

Calculate the arc length of the indicated portion of the curve r(t). r(t) = 6√2 t^((3⁄2) )i + (9t sin t)j + (9t cos t)k ; -3 ≤ t ≤ 7

Find the arc length of the curve r(t) = i + 3t2j + t3k on the...

Find the arc length of the curve r(t) = i + 3t2j + t3k on the interval [0,√45]. Hint: Use u-substitution to integrate.

Parameterize the curve using the arc-length parameter s, at the point at which t=0t=0 for r(t)=e^tsint...

Parameterize the curve using the arc-length parameter s, at the point at which t=0t=0 for r(t)=e^tsint i+e^tcost j.

Find, for 0 ≤ x ≤ π, the arc-length of the segment of the curve R(t)...

Find, for 0 ≤ x ≤ π, the arc-length of the segment of the curve R(t) = ( 2cost − cos2t, 2sint − sin2t ) corresponding to 0 ≤ t ≤ x.

Give your answer to two decimal places 1) Find the curvature of the curve r(t)=〈 5+...

Give your answer to two decimal places 1) Find the curvature of the curve r(t)=〈 5+ 5cos t , −5 ,−5sin t 〉 at the point t=11/12π 2) Find the curvature of the curve r(t)= 〈4+3t,5−5t,4+5t〉 the point t=5.

Find the arc length of r(t) = from (1,0,0) to (-1,2,0)

Find the arc length of r(t) = from (1,0,0) to (-1,2,0)

1. a) Get the arc length of the curve. r(t)= (cos(t) + tsin(t), sin(t) - tcos(t),...

1. a) Get the arc length of the curve. r(t)= (cos(t) + tsin(t), sin(t) - tcos(t), √3/2 t^2) in the Interval 1 ≤ t ≤ 4 b) Get the curvature of r(t) = (e^2t sen(t), e^2t, e^2t cos (t))