Q1 The following differential equation describes a water tank system d 1 1/ h (1) + / 72 h(t) = — / 9₁/(²) dt AR where h(t) is the variable describing the water level, A is the tank area R is the output restriction coefficient qi(t) is the input flow (d) Assuming a constant input qi(t)= constant = Q, derive the output in Laplace form. (e) Find and sketch the time response of the output h(t), from (d)

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Q1
The following differential equation describes a water tank system
d
1
1
-h(t) + -h(t) == 9:(t)
dt
AR
A
where h(t) is the variable describing the water level,
A is the tank area
R is the output restriction coefficient
qi(t) is the input flow
(d) Assuming a constant input qi(t)= constant = Q, derive the output in Laplace form.
(e) Find and sketch the time response of the output h(t), from (d)
Transcribed Image Text:Q1 The following differential equation describes a water tank system d 1 1 -h(t) + -h(t) == 9:(t) dt AR A where h(t) is the variable describing the water level, A is the tank area R is the output restriction coefficient qi(t) is the input flow (d) Assuming a constant input qi(t)= constant = Q, derive the output in Laplace form. (e) Find and sketch the time response of the output h(t), from (d)
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