6.16 A liquid surge system (p= constant) is designed with a side tank that normally is isolated from the flowing material as shown in Fig. E6.16. %3D 90- h1 91 92 Area = A1 R1 Area = A2 R2 %3D %3|...

Extracted text: 6.16 A liquid surge system (p= constant) is designed with a side tank that normally is isolated from the flowing material as shown in Fig. E6.16. %3D 90- h1 91 92 Area = A1 R1 Area = A2 R2 %3D %3| Valve 1 Valve 2 Figure E6.16 (a) In normal operation, Valve 1 is closed (R, → co) and q, = 0. What is the transfer function relating changes in qo to changes in outflow rate q, for these conditions? %3D (b) Someone inadvertently leaves Valve 1 partially open (0 < r,="">< o0).="" what="" is="" the="" differential="" equation="" model="" for="" this="" system?="" (c)="" what="" do="" you="" know="" about="" the="" form="" of="" the="" transfer="" func-="" tion="" q(s)/q6(s)="" for="" valve="" 1="" partially="" open?="" discuss="" but="" do="" not="" derive.="" (d)="" is="" the="" response="" to="" changes="" in="" qo="" faster="" or="" slower="" for="" case="" (b)="" compared="" to="" case="" (a)?="" explain="" why="" but="" do="" not="" derive="" an="" expression="" for="" the="">