The incoming vector V=<-3,1> is reflected by the ellipse (2cos(t),Sin(t)) at the point where t=0.9 on...

(a) determine the reflection vector R when an incoming vewctor V is reflected by the given...

(a) determine the reflection vector R when an incoming vewctor V is reflected by the given curve (b) determine parametric equations for the reflected line when the reflection occurs at the given point The incoming vector V=<-1,1> is reflected by the curv y=x^2 at the point (2,4)

Consider the ellipse r(t) =〈3 cos(t),4 sin(t)〉, for 0 ≤ t ≤ 2π. (a) At what...

Consider the ellipse r(t) =〈3 cos(t),4 sin(t)〉, for 0 ≤ t ≤ 2π. (a) At what positions does ‖r′(t)‖ have maximum and minimum values, that is, where is a particle moving along the ellipse moving the fastest and slowest? Your answer will be vectors. (b) At what positions does the curvature have maximum and minimum values? Your answer will be vectors.

A sinusoidal voltage ?v = 35.0 sin 100t, where ?v is in volts and t is...

A sinusoidal voltage ?v = 35.0 sin 100t, where ?v is in volts and t is in seconds, is applied to a series RLC circuit with L = 190 mH, C = 99.0 µF, and R = 59.0 ?. (a) What is the impedance of the circuit? ? (b) What is the maximum current? A (c) Determine the numerical value for ? in the equation i = Imax sin (?t ? ?). rad/s (d) Determine the numerical value for ?...

Construct a linear transformation T : V → W, where V and W are vector spaces...

Construct a linear transformation T : V → W, where V and W are vector spaces over F such that the dimension of the kernel space of T is 666. Is such a transformation unique? Give reasons for your answer.

1) Find the curvature of the curve r(t)= 〈2cos(5t),2sin(5t),t〉 at the point t=0 Give your answer...

1) Find the curvature of the curve r(t)= 〈2cos(5t),2sin(5t),t〉 at the point t=0 Give your answer to two decimal places 2) Find the tangential and normal components of the acceleration vector for the curve r(t)=〈 t,5t^2,−5t^5〉 at the point t=2 a(2)=? →T +  →N

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)

Calculate the rms currents (in A) for an AC source given by  v(t) = V0 sin(?t), where...

Calculate the rms currents (in A) for an AC source given by  v(t) = V0 sin(?t), where V0 = 100 V and ? = 200? rad/s, when connected across the following. (a) a 22 µF capacitor A (b) a 40 mH inductor A (c) a 46 ? resistor A

Consider a particle moving through space with velocity v(t) = cos(t)i−sin(t)j + tk. (i) (3 marks)...

Consider a particle moving through space with velocity v(t) = cos(t)i−sin(t)j + tk. (i) Determine its acceleration vector. (ii) Determine the position vector, supposing the particle starts at position (3,−2,3) at time t = 0.

Find the directional derivative of the function at the given point, in the vector direction v...

Find the directional derivative of the function at the given point, in the vector direction v 1- f(x, y) = ln(x^2 + y^2 ), (2, I), v = ( - 1, 2) 2- g(r, 0) = e^-r sin ø, (0, ∏/ 3), v = 3 i - 2 j

6.4) Determine the unit vector normal to the streamline at a point where V = 3i...

6.4) Determine the unit vector normal to the streamline at a point where V = 3i + 4j in a plane flow. a) 0.6 i + 0.8 j b) -0.6 i + 0.8 j c) 0.8 i + 0.6 j d) 0.8 i - 0.6 j