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BME_lab_03_chenxuan_zhou_(b)

# BME_lab_03_chenxuan_zhou_(b) - %4.3f\n,e(4 G 0.3 0 = P_m4 H...

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F_1=0.6; F_2=0.2; % The mass flow rate of mixer 1 is 1 % x is the mass flow rate of feed 1 % y is the mass flow rate of feed 2 % 0.6x+0.2y=0.5 % x+y=1 a=[F_1 F_2; 1 1]; b=[0.5;1]; c=inv(a)*b; fprintf('The mass flow rate of alloy feed 1 is: %4.3f\n',c(1,:)) fprintf('The mass flow rate of alloy feed 2 is: %4.3f\n',c(2,:)) d=[0.6 0.2 ;0.2 0.6;0.2 0; 0 0.2]; e=d*c; fprintf('The mass flow rate of F in mixer 1 is: %4.3f\n',e(1,:)) fprintf('The mass flow rate of G in mixer 1 is: %4.3f\n',e(2,:)) fprintf('The mass flow rate of H in mixer 1 is: %4.3f\n',e(3,:)) fprintf('The mass flow rate of K in mixer 1 is:
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Unformatted text preview: %4.3f\n',e(4,:)) % G % 0.3+0 = P_m4; % H % 0.15+0.5*x_m5= P_m4; % K % 0.05+(m4-1)-1.5x_m5=m4*0.6-2p_m4 % % p_m4 = 0.3 % p_m4-0.5x_m5=0.15 % 2p_m4+0.4m4-1.5x_m5=0.95 coe=[1 0 0;1 -0.5 0;2 -1.5 0.4]; res=[0.3;0.15;0.95]; unk=inv(coe)*res; u fprintf('P_m4, the mass of compound G at the outflow of mixer 2 is: %4.3f\n',unk(1,:)) fprintf('X.m5, the mass inflow of compound F in alloy feed 5 is: %4.3f\n',unk(2,:)) fprintf('m4, the outflow mass rate of mixer 2 is: %4.3f\n',unk(3,:))...
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