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- The expression of r1 for Schering bridge is given byIn a DC optimal power flow problem of 3 bus network. The flow on lines was found to as follow: f12=100 M, MW, f13=150 MW, and f23 =120MW. The lines limits are 140 MW each. and the system base MVA =10OMVA. What additional constraint to be added on the solution of the DCOPF Select one: O a. None of these O b. 100 (0, - 02)/x12= 150 Oc. 100 (0, - 03)/x13= 140 O d. 100 (0, - 03)/x13= 160 O e. 100 (0, - 03)/x13= 130 O f. 100 (0, - 03)/x13= 150Describe how steady-state accuracy of the system can be measured. Determine the accuracy of the system given different types of test inputs. Show examples for every type of test inpts to prove your answer.
- pls answer in 30 mins sir subject (control engineering) pls use this matrix num sir (AD 200153)The Routh-Hurwitz criterion is a necessary and sufficient criterion for determining the stability of nonlinear systems. True or FalseSecond order system with the system equation  is shown in diagram below:  Find out the following for the above mechanical system: a. Number of state space equations required to represent in State Space Model b. State Space Equations c. Matrix form of the equations found in part. B.
- Please show clear and complete solution. Thank you. ASAP! KIRCHHOFF'S CURRENT LAW2.35 For the circuit shown in Figure 2.29, convert the voltage sources to equiv- alent current sources and write nodal equations in matrix format using bus 0 as the reference bus. Do not solve the equations. 0.02 0 2 0.10 0.10 j.5N j.5N ーi19 Esi = 1.0 /30° V Es2 = 1.0 /0° V HIIdentify the given statement. Current density is a scalar quantity. Select your answer. The statement is true. The statement is false. The st ement is a case-to-case basis. The statement has no fixed information.
- Q) give 5 to 10 reasons when the steady state error happened Subject name control system engineeringSubject telecomicatohs engineetingb) A jacketed vessel is used to cool a process stream as shown in the below. Ty V b1) Derive a dynamic model for this system in terms of deviation variables. (State any additional assumptions that you make). You are given the following additional information below b2) Discuss the method you will need to follow in order to generate the process transfer function based on the model derived in bl. (1) The volume of liquid in the tank V and the volume of coolant in the jacket V, remain constant. Volumetric flow rate g is constant but g, varies with time. (ii) Heat losses from the jacketed vessel are negligible. (ii) Both the tank contents and the jacketed contents are well mixed and have significant thermal capacitances. (iv) The thermal capacitances of the tank wall and the jacket wall are negligible. () The overall heat transfer coefficient for transfer between the tank liquid and the coolant varies with coolant flow rate: where U [=) Btu/h ft E K-constant|