Ideal Gas 19 Storage Tank Contains Liquid Depth Y Y 0 Tank Half Full Liquid Withdrawn Cons Q43811128
**in Matlab: a plot is needed instead of a table
ideal gas 1.9 A storage tank contains a liquid at depth y, where y = 0 when the tank is half full. Liquid is withdrawn at a constant flow rate Q to sinusoidal rate meet demands. The contents are resupplied at a 3Q sin (r). FIGURE P1.9 Equation (1.13) can be written for this system as d(Ay) = 3Q sin (t) – dt change in volume = (inflow) – (outflow) or, since the surface area A is constant dy sin (1) %3D dt whole Use Euler’s method to solve for the depth y from t = 0 to 10 d with a step size of 0.5 d. The parameter values are A Q = 450 m/d. Assume that the initial condition is y = 0. 1250 m and 1 10 For the same store Show transcribed image text ideal gas 1.9 A storage tank contains a liquid at depth y, where y = 0 when the tank is half full. Liquid is withdrawn at a constant flow rate Q to sinusoidal rate meet demands. The contents are resupplied at a 3Q sin (r). FIGURE P1.9 Equation (1.13) can be written for this system as d(Ay) = 3Q sin (t) – dt change in volume = (inflow) – (outflow) or, since the surface area A is constant dy sin (1) %3D dt whole
Use Euler’s method to solve for the depth y from t = 0 to 10 d with a step size of 0.5 d. The parameter values are A Q = 450 m/d. Assume that the initial condition is y = 0. 1250 m and 1 10 For the same store
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