Find and when s = 1 and t = 2 for the following functions: z = x3 + x^y^, x = st”, y = sat
We will all rate if correct 6) Find oz and az when s= 1 and t= 2 for the following functions: at = x3 + x2y4, r= = sta, y sat =
Exercises 6-14 deal with the logistic family of functions given by FA(x) Az(1 -z). 6. For which values of λ does FA have an attracting fixed point at x 0? 7. For which values of λ does F) have a nonzero attracting fixed point? 8. Describe the bi 1. furcation that occurs when λ Exercises 6-14 deal with the logistic family of functions given by FA(x) Az(1 -z). 6. For which values of λ does FA have an attracting fixed...
Find the state equations for the following differential equation: dy(t) dy(t) + 6y(t) = z(t) dt3 dt2 dt +60360) + 11. 1 1 + oz(t) 0 0 -6 -11 X3 X 1 y(t) = [1 0 0] x2 + [0]z(t) X3 X1 0 1 0 = 0 0 0 X2 0 Iz(t) X2 6 11 6 X3 X3 X1 y(t) = [1 1 0] x2 + [O] z (t) X3
i(z, t) i(z + Az, t) R'Δz 2 L'Az 2 v(2,t) G'Az C'Az v(z+Az, t) R'Az 2 L'AZ 2 Az dvíz, t) R'i(2,4) + 2 (a) Hint: Set up your equations using the appropriate KVL and/or KCL relationships for this circuit model of a transmission line differential section. Derive the following Partial Differential Telegraphy Equations; ai(z,t) (2.14 in Ulaby) az at ai(z,t) av(z,t) G'v(z,t) + C' (2.16 in Ulaby) дz at Sketch the lossless version of the equivalent circuit of...
1. If a particle moves according to a law of motion S(t)=12-6-7, t 20 Where t is measured in seconds and sin meters, (a) Find the velocity of the particle in terms of t. (b) Find the velocity and the speed at time t=1. (c) When is the particle at rest? (d) When is the particle moving to the right and when is it moving to the left? (e) Find the acceleration of the particle at t. (10pts) 2. Evaluate...
Given z = 2(x,y),X = x(s,t),y = y(s,t), and zx(-1,1)= 3, zy(-1,1)= 2, xs(-1,1)= -1, x,(-1,1)= 3, ys(-1,1)= 1, z (1,2)=5, z (1,2)=3, x(1,2)= -1, y(1,2)= 1, y,(-1,1)= 4, xs(1,2)=3, xx(1,2)= -2, x(-1,1)= 1, y(- 1,1)=2, 7(1,2)=7, vs(1,2)=2, a. compute ( cas ? )ats = 1,t =2, b. if we plot the surface Z as a function of 5 and t, then at the point (1,2) in the st-plane, how fast is Z changing in the direction (-1,1) in the...
Find the response of y(t) when x(t) = 3cos(7t+45degrees) and H(s) = 6/(2s+1)
z=e37.cos(4), Ir-st, y=215+t az/az= az/ay= M Dz/as= M dy/as = M Oz/dt = M Dy/at = M az/as= az/at= If you don't get this in 3 tries, you can see a similar example (online). However, try to use this as a last resort or after you have already solved the problem. There are no See Similar Examples on the Exams!
Question 1 < Find the tangent plane to the equation z = 3.12 2y2 + 3y at the point (-4, -3, - 75) 2 Question 2 Find the tangent plane to the equation z = 5ex°-by at the point (12, 24, 5) Question 3 < > Find the tangent plane to the equation z = 5y cos(3x – 2y) at the point (2,3,15) z = Question 4 at the point (4,2,8), and use it to Find the linear approximation to...