Please answer with work
Evaluate the sum. (4%) 8 23) k2 - 8 k = 1
K2 K →X () На Figure 3: 3. (a) Find T(s) = xtransfer function by reducing the block diagram shown in Figure 3 for K; and H;s. (b) Find the positions of roots of the denominator polynomial of T(s) in s-plane by using Routh table (Routh-Hurwitz criteria) for Ki = , K2 = 1, H2 = 1 and H2 = 3+1 (C) Analyse the stability of the system and explain your findings.
Kila K2 B B Tag K2 Kila i N2 N₂ A 0 K KIB KIB N K N species 1 species 2 (b) (a) Kila K2 B To 7 N₂ ž K2 Kila D E E X с A ܘܠ A 0 Ky K2/B 0 KB K N N (c) (d) In graph (d), in the lower right-hand region (point C), the combined dynamics the equilibrium point and the carrying capacity of species 1. move away from; toward O support;...
design a PDA for this language
し-(012kl i = 2j or i = k, where ij,k2 1}
し-(012kl i = 2j or i = k, where ij,k2 1}
1. Suppose the production function in medieval Europe is Y = K2/3L1/3, where K is the amount of land and L is the amount of labor. The economy has with 1,000 units of land and 1,000 units of labor. Find a numerical answer to each of the following questions. a. (How much output does the economy produce? b. What are the wage and rental price of land? c. What share of output does labor receive?
[6]BONUS: kl -5,5x10-3 3-1 at 315 K, find k2 at 415 Kif Ea - 45.5 kJ/mol.
27. Find the sum of the sequence 14 (k2 – 4) k=1
jestigate whether the following series converge! of 1 log k ok log k' L K2 IM
[Rh(Cl)5(OH2)]2- undergoes
dissociative ligand exchange. Ratios of k-1/k2 were obtained as
shown below/
I don't know the part C. Can you explain part C?
10) (10 marks) [Rh(ClI)s(OH2)]2- undergoes dissociative ligand exchange. Ratios of k-1/k2 were obtained as shown below. [Rh(Cl)5(OH2)]2. + X. Cl- N3- k-1/k2 62 7 (a) Do you expect kı and k-1 to change when X changes from Cl to N3? No (b) Provide a reasonable explanation for your answer in part (a). k1 k2 [Rh(Cl)512, +...
For the circuit below, voltage vo is: 20 k2 ww 2 k2 + 3 kS2 1 V Da-1.5 b.0.1 OC-10 Od.10 For the circuit in Fig. 5.40, current iy is: 20 k2 wW 2 k2 1 V 3 kQ a. 1 mA b.500 HA C. 200 HA Od.0.1 HA OIO+O