Part I (centineed 1.RV(s-T 1 .PECOR 2 RES APES I1 .NEO 12 1.P-P 1o de anything follows from a contradiction) P...
2 In the block diagram below, G(s) -1/s, P(s)P(s) s-+2 s+2 D(s)- k-oo Ше-ks[1-e-s/1001. The inverse Laplace transforms of these equations are g(t), p(t),p(t), and d(t), respectively. The parameter K scales the feedback k-0 D(s) R(s) G(s) P(s) C(s) P(s) A Consider for a moment, D(s)- 0. Simplify the block diagram in terms of G(s), P(s), P(s) and find the transfer function by substituting the equations given above B What are the zeros and poles of the system you obtained...
part a-f needed S U RES DE SE U TENHAM - Due Date: 11/20/2019 11:59:00 PM End Date: 112019 11:39:00 PM (5%) Problem 10: A basketball is pressurized to a gauge pressure of P 75 kPa when at the surface of a swimming pool. (Patm = 101 kPa). The ball is then submerged in the pool of water which has a density Q = 1000 kg/m². Assume the ball does not change in mass, temperature, or volume as it is...
Here are the risk and return estimates for the T-Note (#1) and the S&P 500 (#2) for the coming year: Problem IV (12 points) Here are the risk and return estimates for the T-Note (#1) and the S&P 500 (#2) for the coming year: T-Note (#1) Expected Return E(R) 6%e Std, Deviation 12% Correlation (T-Note, S&P 500) = 0 S&P 500 (#2) 8% 16% 1. What is the expected return and standard deviation of the following portfolios? Portfolio Weight in...
need part d = 4 + + 2. Solve the system of equations s 2x + 4y + 6z (a) (3x + 5y – 2z = 7 ons 2x + 4y + 62 + 8t = 4 5y - 22 - t = 7 I1 + x2 + x3 = 1 Ii + 2.02 + 3x3 = 0 . + 4.12 + 9x3 = 4 + i + x3 = 1 + 2x2 + 3x3 = 0 . - 13...
The position of a squirrel running in a park is given by r =[(0.280m/s)t+(0.0360m/s2)t^2]i+ (0.0190m/s^3)t^3j. Part C At 5.25s , how far is the squirrel from its initial position? Express your answer to three significant figures and include the appropriate units. Part D At 5.25s , what is the magnitude of the squirrel's velocity? Express your answer to three significant figures and include the appropriate units. Part E At 5.25s , what is the direction (in degrees counterclockwise from +x-axis)...
<HW#9 (Chapter 12) Problem 12.120 For the beam shown, I E is constant. (Figure 1) P De EX Figure < 1 of 1 > Provide F Type here to search Part B Determine the vertical reaction at support A. Express your answer as an expression in terms of the variables wo and L and any necessary constants. VAXO 11 vec o ? a р y 8 € n e K 2 M V р o T ф X y 0...
Figure v (m/s) 12 1 2 34 t (s) Conut What is the object's position at t-2 s? Express your answer in meters Submit Pre x Incorrect; Try Again; 5 attempts remaining Part B What is the object's position at t 3 s? Express your answer in meters. 2 Submit Request Answer
Part D: Uniform Line Charge de Total Charge = Q Total Length=L 1/2 dq L/2 Theoretical: Derive the electric field at a distance "a" from the end of a uniform bent line charge as illustrated above. Determine the electric field at i) a=3 m ii) a=6 m iii) a= 9 m For Q = 12 nC and L = 12 m.
(0.75,5.598) i(t) in A p(t) in W (2.167,0) t(s) (0.25,-0.402) (0.333,0) (0.167.0) Figure 1: Time-domain plots of y(t), i(t) and p(t) For some impedance, Fig. 1 shows the time-domain plots of the voltage, current and instantaneous power. Using the given readings (for each point, the first value is time in seconds and the second value is the voltage in Volts or current in Amperes or instantaneous power in Watts), answer the following questions: 1. The impedance is 1. Inductive, 2....
Results for this submission Entered Answer Preview (pu([(s^2)+1]"t(s^2)+(p2)-e^-)"pu([(s^2)+1]*[[s*2)+(p1*2 (pur(!$2,71% simt41\/p\'sindprto purtain 23-1p4a0-1% elnye1) tips incorny (x2 + 1)2 +) ** (+1)* +45 , (since) - Esin (re)- wyle - 1)(since – 1) + anwe)) (1 point) Take the Laplace transform of the following initial value and solve for Y ) - C (O): " + lysin(at), 03t<1 10, 13t (0) - 0 (0) 0 Ya p i/(s^2+1)(s^2pi^2)) s(pi/(s^2+1 ^2 Next take the inverse transform of Y ) to get y(t)...