Problem 6 (10) Determine the overall transfer system function for the following cascaded systems. The inputs...
Circle the correct answers The overall transfer function from block diagram reduction for cascaded blocks is? A. Sum of individual transfer functions B. Product of individual transfer functions C. Difference of individual transfer functions D. Division of individual transfer functions Second order systems have A. Two poles at origin B. Two zeroes at origin C. Two poles D. Two zeros A marginally stable system is given bounded input then the system output is? A. Converging to zero as time goes...
(please explain your answers). for the following transfer
function,
a) determine if the associated system is BIBO stable
b) if BIBO stable systems in question a). For these systems,
determine the steady state output Yss(t) given
- an input u(t) = 2step(t) → Yss(t) = lim t→+∞ (y(t)) = constant
value
-an input u(t) = 3 sin(t) → Yss(t) = sin function
c) if non BIBO stable systems in question a). For these systems,
find a bounded input that makes...
Problem 3: A system has the transfer function: Gfs) -8 +24s+800 35+6 Assuming time for this system is expressed in seconds, if the system is subjected to a periodic input of 4 sin ot, determine a) The frequency o where the amplitude of the output will be at its maximum b) The functional expression for how the output amplitude varies with-the input frequency, c) The functional expression for how the phase of the output with respect to the input varies...
a system is given by the following transfer function Y(s)/u(s) = 1/(s^2-16) a)find the output in time domain Y(t) if the input u(t) is a unit step. (Hint the transfer function of the unit step function is 1/s) b)what is Y(t) as t goes to infinity
2) For a system with the transfer function H(s) =- (st100) c) find the unit impulse response of the system. d) if the input of the system is 3e u(t), what is the output of the system in the frequency domain if all initial conditions are zero. e) if the input of the system is 3e" 100u(t), what is the output of the system in the time domain if all initial conditions are zero. f) what is the frequency of...
14. An LTI system has the following transfer function, determine the output system response y(t) due to the input x(t) e u(t) H(s) s+2 S+7s+12 Answer: y(t)
Problem 3 (25) Consider the unity-feedback system with the open-loop transfer function: 10 G(s) = 1 Obtain the steady-state output of the system when it is subjected to each of the following inputs: a)r(t) sin(t30*) b) r(t) 2cos(2t - 45) c) r(t) sin(t+30") + 2cos(2t -45)
Problem 3 (25) Consider the unity-feedback system with the open-loop transfer function: 10 G(s) = 1 Obtain the steady-state output of the system when it is subjected to each of the following inputs: a)r(t)...
the third one please solve it
Determine the overall system transfer function for each of the system block diagrams below Hes) H(s) = G, G2 T + Gatto Iti Golz Itsetzt Higiak -> G1 = t , Gok - H₂=1 Hi=5+2 | H(s) = G, G2 TG2H2 + Hig, az + K x 1 +(3+2 t sil H(s) = 2+5 (2k-1) 12k Page 1 of H(s) =
1.2 [12 points] Determine the transfer functions for the following systems. (a) A system described by the signal flow graph below: -1 Figure 2 (b) A second-order system with input u and output y described by the state variable model below: i- Ax + Bu y -2x, 01 where x- A-TT
(3) For the system modeled by with output defined as a) Find the system's transfer function(s) E(t) +3z(t) +2x(t)-Sult) b) Find the system's pole(s) (if any) and zero(s) (if any) c) Find n(t →x) if u(t)-G 120) 0 t<0 e) Find the frequency response function corresponding to output y 1) Find steady-state ya(t) if u(t) 3sin(21)