Using Mason S Rule Find Transfer Function T Sor Following System C S R S G S Cls H S 2 Dr Q28247860

I. Using Masons rule, find the transfer function, T(sor the following system. C(s) R(s) G(s) Cls) H-(s) 2. Draw signal flow graph from block diagram for the following system. Use Masons rule, to find the transfer function, T(s) C(s) = _ R(s) R(s) G, 3. Reduce the system shown below to a single transfer function, T(s)co R(s) R(s)+ G2 G3 C(s) 4. For the following transfer functions: a. State the nature ofeach response (over damped, under damped, and so on) b. Find the damping ratio and natural frequency for each second-order system T(s)=- 12 T(s)YE 1.1 (s+3) (s+6) 20 s2+6s +144 10(s+ 1.3 5)-(s +10)(s+20)I. Using Mason’s rule, find the transfer function, T(sor the following system. C(s) R(s) G(s) Cls) H-(s) 2. Draw signal flow graph from block diagram for the following system. Use Mason’s rule, to find the transfer function, T(s) C(s) = _ R(s) R(s) G, 3. Reduce the system shown below to a single transfer function, T(s)co R(s) R(s)+ G2 G3 C(s) 4. For the following transfer functions: a. State the nature ofeach response (over damped, under damped, and so on) b. Find the damping ratio and natural frequency for each second-order system T(s)=- 12 T(s)YE 1.1 (s+3) (s+6) 20 s2+6s +144 10(s+ 1.3 5)-(s +10)(s+20) Show transcribed image text

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