Find the curvature of the space curve x=(3t^2)-t^3 y=3t^2 z=(3t)+t^3

Find the length of the curve x= (3t - t)^3, y = 3(t^2) for 0 ≤...

Find the length of the curve x= (3t - t)^3, y = 3(t^2) for 0 ≤ t ≤ 2

Find the length of the curve x = 3t^(2), y = 2t^(3) , 0 ≤ t...

Find the length of the curve x = 3t^(2), y = 2t^(3) , 0 ≤ t ≤ 1

Consider the parametric curve defined by x = 3t − t^3 , y = 3t^2 ....

Consider the parametric curve defined by x = 3t − t^3 , y = 3t^2 . (a) Find dy/dx in terms of t. (b) Write the equations of the horizontal tangent lines to the curve (c) Write the equations of the vertical tangent lines to the curve. (d) Using the results in (a), (b) and (c), sketch the curve for −2 ≤ t ≤ 2.

Consider the lines in space whose parametric equations are as follows line #1 x=2+3t, y=3-t, z=2t...

Consider the lines in space whose parametric equations are as follows line #1 x=2+3t, y=3-t, z=2t line #2 x=6-4s, y=2+s, z=s-1 a Find the point where the lines intersect. b Compute the angle formed between the two lines. c Compute the equation for the plane that contains these two lines

1) Find the curvature of the curve r(t)= 〈4+3t,5−5t,4+5t〉 the point t=5. 2) Find a plane...

1) Find the curvature of the curve r(t)= 〈4+3t,5−5t,4+5t〉 the point t=5. 2) Find a plane through the points (2,-3,8), (-3,-3,-6), (-6,3,-7)

At what point on the curve x = 3t^2 + 1, y = t^3 − 3...

At what point on the curve x = 3t^2 + 1, y = t^3 − 3 does the tangent line have slope 1/2 ?

Find the curvature of r(t) at the point (3, 1, 1). r(t) = <3t, t^2 ,...

Find the curvature of r(t) at the point (3, 1, 1). r(t) = <3t, t^2 , t^3> k=

Find the unit tangent vector T(t) and the curvature κ(t) for the curve r(t) = <6t^3...

Find the unit tangent vector T(t) and the curvature κ(t) for the curve r(t) = <6t^3 , t, −3t^2 >.

For the following equation x=2t^2,y=3t^2,z=4t^2;1 less or equal to t less or equal to 3 i)...

For the following equation x=2t^2,y=3t^2,z=4t^2;1 less or equal to t less or equal to 3 i) Write the positive vector tangent of the curve with parametric equations above. ii) Find the length function s(t) for the curve. iii) Write the position vector of s and verify by differentiation that this position vector in terms of s is a unit tangent to the curve.

On the parametric curve (x(t), y(t)) = (t − t^2 , t^2 + 3t) pictured below,...

On the parametric curve (x(t), y(t)) = (t − t^2 , t^2 + 3t) pictured below, determine the (x, y)-coordinates of the marked point where the tangent line is horizontal.