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

r(t)=[cos(t),sin(t),cos(3t)] r(t)=[tcos(t),tsin(t),t) r(t)=[cos(t),sin(t),t2] r(t)=[t2cos(t),t2sin(t),t] r(t)=[cos(t),t,sin(t)] Sketch the graphs.

r(t)=[cos(t),sin(t),cos(3t)] r(t)=[tcos(t),tsin(t),t) r(t)=[cos(t),sin(t),t2] r(t)=[t2cos(t),t2sin(t),t] r(t)=[cos(t),t,sin(t)] Sketch the graphs.

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

Find a unit tangent vector to the curve r = 3 cos 3t i + 3...

Find a unit tangent vector to the curve r = 3 cos 3t i + 3 sin 2t j at t = π/6 .

Given that the acceleration vector is a ( t ) = (−9 cos( 3t ) )...

Given that the acceleration vector is a ( t ) = (−9 cos( 3t ) ) i + ( −9 sin( 3t ) ) j + ( −5 t ) k, the initial velocity is v ( 0 ) = i + k, and the initial position vector is r ( 0 ) = i +j + k, compute: the velocity vector and position vector.

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.

Consider the following vector function. r(t) = 6t2, sin(t) − t cos(t), cos(t) + t sin(t)...

Consider the following vector function. r(t) = 6t2, sin(t) − t cos(t), cos(t) + t sin(t) ,    t > 0 (a) Find the unit tangent and unit normal vectors T(t) and N(t). T(t) = N(t) = (b) Use this formula to find the curvature. κ(t) =

Given that the acceleration vector is a(t)=(-9 cos(3t))i+(-9 sin(3t))j+(-5t)k, the initial velocity is v(0)=i+k, and the...

Given that the acceleration vector is a(t)=(-9 cos(3t))i+(-9 sin(3t))j+(-5t)k, the initial velocity is v(0)=i+k, and the initial position vector is r(0)=i+j+k, compute: A. The velocity vector v(t) B. The position vector r(t)

Consider the following vector function. r(t) = (3sqrt(2)t, e3t, e−3t ) Find the Curvature.

Consider the following vector function. r(t) = (3sqrt(2)t, e3t, e−3t ) Find the Curvature.

Let T = T1 ° T2. Find the standard matrix for T and find T(v1). What...

Let T = T1 ° T2. Find the standard matrix for T and find T(v1). What does T do to the vector v1? T1(x,y) = (y,x) T2(x,y) = (cos(theta)x - sin(theta)y, sin(theta)x + cos(theta)y)

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 =