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Please complete parts 3 and 4. Answers to part 1 and 2 are attached. To the Chegg Expert who says this needs more information, the
Please complete parts 3 and 4. Answers to part 1 and 2 are attached.
To the "Chegg Expert" who says this needs more information, the question has everything needed attached to complete parts 3 and 4. Please answer parts 3 and 4.
Consider the hydraulic system below. You may use either the circuit analogy or any other method of your choice for solution process. 1) Obtain the governing equations of the system. 2) Express them in state space form, defining the A,B,C and D matrices. Use [h1h2h3]T as your state vector, [qiqd] as the input vector and [q2q0P3]T as the output vector. (P3 is the pressure at the point shown below) 3) Use '1sim' in MATLAB/Python to solve the system, and plot the outputs for a time of 1500 seconds. You may use the following values for system parameters. Use your MATLAB solutions to determine: a. Pressure P3 after 300 seconds. b. How long it takes for flow rate qo to exceed the input flow rate qd. C1=2105kgm4s,C2=4105kgm4s,C3=9105kgm4sR1=5106kg/(m4s),R2=2.5106kg/(m4s),R3=7.5106kg/(m4s)=1000m3kg,g=9.81s2mqi=0.06sm3,qd=0.04sm3 4) Double the cross-sectional area of tank, C1. What happens to the capacitance of this tank? How long does it take for qo to exceed qd now. Explain the difference between your results here and those in ( 3 ) (b). P3 Governing Equations: qi=R1h1pq=Aih1(3)qd+R1h1pqR2h2pq=A2h2(6)R2h2pqR3p3=A3h3 State Space Form: q2q0q3=000R2pq00R2pqR3pqpqh1h2h3 Consider the hydraulic system below. You may use either the circuit analogy or any other method of your choice for solution process. 1) Obtain the governing equations of the system. 2) Express them in state space form, defining the A,B,C and D matrices. Use [h1h2h3]T as your state vector, [qiqd] as the input vector and [q2q0P3]T as the output vector. (P3 is the pressure at the point shown below) 3) Use '1sim' in MATLAB/Python to solve the system, and plot the outputs for a time of 1500 seconds. You may use the following values for system parameters. Use your MATLAB solutions to determine: a. Pressure P3 after 300 seconds. b. How long it takes for flow rate qo to exceed the input flow rate qd. C1=2105kgm4s,C2=4105kgm4s,C3=9105kgm4sR1=5106kg/(m4s),R2=2.5106kg/(m4s),R3=7.5106kg/(m4s)=1000m3kg,g=9.81s2mqi=0.06sm3,qd=0.04sm3 4) Double the cross-sectional area of tank, C1. What happens to the capacitance of this tank? How long does it take for qo to exceed qd now. Explain the difference between your results here and those in ( 3 ) (b). P3 Governing Equations: qi=R1h1pq=Aih1(3)qd+R1h1pqR2h2pq=A2h2(6)R2h2pqR3p3=A3h3 State Space Form: q2q0q3=000R2pq00R2pqR3pqpqh1h2h3Step by Step Solution
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