2) An electric circuit is shown below. Obtain the transfer function using a system of equations...
transfer function for the system shown below by using Mason's rule. 7 2 2 We were unable to transcribe this image
transfer function for the system shown below by using Mason's rule. 7 2 2
Identify the transfer function 10/; of the RL circuit shown below. Express the transfer function using Wo= RIL. i(t) R ele L O H (@) II = WO j + 1 O H(@) = 1+ Wo O H (0) jo 1+ W0 1 O H(0) = 00 1+.
Identify the transfer function 10/; of the RL circuit shown below. Express the transfer function using Wo= RIL. i(t) R ele L O H (@) II = WO j + 1 O H(@) = 1+ Wo O H (0) jo 1+ W0 1 O H(0) = 00 1+.
For the Fluid system shown below: 02E Qi Write the appropriate governing equations in the Laplace domain to obtain the transfer function Tank 2 L--w Tank 1 R3 H1+ h LTL o
For the Fluid system shown below: 02E Qi Write the appropriate governing equations in the Laplace domain to obtain the transfer function Tank 2 L--w Tank 1 R3 H1+ h LTL o
Identify the transfer function / of the RL circuit shown below. Express the transfer function using w.= RIL. i.lt i(t) R ell L OH(W) ith 1+ 1 O HW) it O HW) الناز 1+ WO OH(W) 1+1
5. Figure 5 shows an electrical network, i) obtain the differential equations of the network and nofind the transfer function F(s) show that the same transfer function is obtained 12(s)/Vin(s); ii) Analyse the circuit in the s-domain and R. C i2(t) Vin(t) L Figure 5. Electrical Network 4. Find the transfer function X2(s)/F(s) of the spring-mass system shown in Figure 4. The system moves over a frictionless surface. h M2 M1 Figure 4. A 2 DOF spring-mass system over a...
The equations of motion for an undamped 2 DOF system are shown below. Find the transfer function X1/F2. You do not need to find the other three transfer functions. 5. 2 2+k3 )x2 = F2 dt-
The equations of motion for an undamped 2 DOF system are shown below. Find the transfer function X1/F2. You do not need to find the other three transfer functions. 5. 2 2+k3 )x2 = F2 dt-
The equations of motion for an undamped 2 DOF system are shown below. Find the transfer function X1/F2. You do not need to find the other three transfer functions. 5. 2 2+k3 )x2 = F2 dt-
The equations of motion for an undamped 2 DOF system are shown below. Find the transfer function X1/F2. You do not need to find the other three transfer functions. 5. 2 2+k3 )x2 = F2 dt-
9. Solve the system of equations below using Cramer's Rule. If Cramer's Rule does not apply, say so. S4x + 5y = -3 -2y = -4