MODEL: Two_Tanks_Outflow_SEQUATIONS FOR BERKELEY MADONNAMETHOD RK4STARTTIME = 0STOPTIME = 10DT = 0.02V1(t) = V1(t - dt) + (- IV1) * dtINIT V1 = h1_0*tank_cross_section_1IV1 = IF ((P1-P2) > 0) THEN SQRT((P1-P2)/k1) ELSE -SQRT(-(P1-P2)/k1)V2(t) = V2(t - dt) + (IV1 - IV2) * dtINIT V2 = h2_0*tank_cross_section_2IV1 = IF ((P1-P2) > 0) THEN SQRT((P1-P2)/k1) ELSE -SQRT(-(P1-P2)/k1)IV2 = SQRT(P2/k2)density = 1000h1 = V1/tank_cross_section_1h1_0 = 0.102h2 = V2/tank_cross_section_2h2_0 = 0.248k1 = 2.5e13k2 = 0.48e13length_1 = 0.500length_2 = 0.250P1 = 9.81*density*h1P2 = 9.81*density*h2pipe_radius = 0.003tank_cross_section_1 = PI*(0.099/2)^2tank_cross_section_2 = PI*(0.149/2)^2