Convert the CFG(s) in the following problems into equivalent PDAs: a. E → E + T | T T → T x F | F F → (E) | a b. R → XRX | S S → aT b | bT a T → XT X | X | ε X → a | b c. A → BAB | B | ε B → 00 | ε
Find he T e enn and Nor on equivalent circuit at er in s ab or the c cu shown below where R 4 Ω Please report your answer so he magnitude s pos ve and a angles are n the ran e o negative 80 degrees o positive 80 degrees j20Ω 25 2302 v (+ -j10 Ω
d) Find the Laplace transform of the following function: f (t = 0 to +09) eat dt e) Find the equivalent solution of (d) using MATLAB method(s) (find 2 methods). d) Find the Laplace transform of the following function: f (t = 0 to +09) eat dt e) Find the equivalent solution of (d) using MATLAB method(s) (find 2 methods).
Find the digital equivalent of G(s) = (s−1)/(s(s+1)) using the step response equivalent with T = 0.1 sec.
2. Write the major product(s) that would result from the reaction of each ether with equivalent HBr. 1 equivalent HBr DCM 1 equivalent HBr DCM 1 equivalent HBr DCM 1 equivalent HBr DCM
(2) Prove that the following are equivalent for x ER and A CR. (a) X E A. Here A denotes the closure of A. (b) For every e > 0, N(x; e) n A +0. (c) For every open set U, if r EU then UNA+.
please solve number 2 and number 4 from the following picture. 2. The equivalent s-domain model for an RC circuit is shown below. w The loop equation in the s-domain is given by: 3165) + 16 = 3244 Determine the current i(t). Use the phase shift approach. 3. Determine the inverse Laplace transform of s? Y(s) - 10s +3[sY(s) - 10 ] + 2Y(s) = - 4. Clearly answer the following questions: a. Explain the purpose of using the Laplace...
Module 37 1. Write (-10) in 2's complement with 5 bits 2. Write the decimal equivalent of the 2s complement binary number "10011. 3. Can you express (25) in 2's complement with 5 bits? Why or why not?
a. (10) For the circuit below, draw the s-domain equivalent circuit and show that H(S) = 2 2 . 2321H 0.5F V b. (10) Using Inverse Laplace Transforms, find the impulse response (1) c. (5) Briefly tell me in your own words what an impulse response is. d. (15) For an input, vt) = 2e- Transforms to find vo(t). use Laplace Transforms to find V.(s) and then use Inverse Laplace e. (5) Briefly discuss how convolution could have been used...
Task E: Consider the circuit in Figure 2. Find the Thevenin equivalent circuit seen at the output interface. VTZT Figure 2. Task F: Consider the circuit in Figure 3. Find the input impedance of the circuit. 100 ? j100 ? V. Vo ZIN Figure 3.