# Manipulate does not accept constant (i.e. just number) as upper limit for variable

In the code below, If I chenage (4/([Zeta]*[Omega])) to, say 20, nothing is plotted. Why? If I remove the two sliders at the beginning, nothing is plotted

``````ClearAll[\[Zeta], \[Omega]]
{Slider[ Dynamic[\[Zeta]], {0.1, 1.4, 0.1}], Dynamic[\[Zeta]]}
{Slider[ Dynamic[\[Omega]], {1, 5, 0.1}], Dynamic[\[Omega]]}
tf[\[Omega]_, \[Zeta]_] :=
TransferFunctionModel[\[Omega]^2/(s^2 +
2 \[Zeta] \[Omega] s + \[Omega]^2), s]
f[t_] = OutputResponse[tf[\[Omega], \[Zeta]], UnitStep[t], t];
Manipulate[
Plot[f[t], {t, 0, (4/(\[Zeta]*\[Omega]))},
PlotRange -> {{0, (4/(\[Zeta]*\[Omega]))}, {0, 2}}], {{\[Zeta],
0.2}, 0.1, 1.4}, {{\[Omega], 1}, 0.5, 4}
]
``````
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I'd define `f[t_, \[Omega]_, \[Zeta]_]` and use it accordingly in `Manipulate`. –  b.gatessucks Jul 10 '12 at 11:33

## 1 Answer

``````tf[o_, z_] := TransferFunctionModel[o^2/(s^2 + 2 z o s + o^2), s]
f[t_, o_, z_] = OutputResponse[tf[o, z], UnitStep[t], t];
Manipulate[Plot[f[t, o, z], {t, 0, 20}, PlotRange -> {0, 2}],
{{z, 0.2}, 0.1, 1.4}, {{o, 1}, 0.5, 4}]
``````

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Thanks. This works. I even could make the upper limit on t variable. I am new to mathematica - as you can obviously see from the totally "unclean" code. –  user1513422 Jul 10 '12 at 14:01