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I cannot figure out how to plot a vector field with only 1 variable. Maybe Mathematica doesn't support this. For example:

 r(t) = cost j + sint i

same as

 <cost, sint>

This doesn't work:

VectorPlot[{cos t, sin t}, {t, 0, 2 Pi}] 

As a bonus how to take the derivative of a vector?

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2  
Are you aware that cosine of t is written as Cos[t] in Mathematica and not as cos t? – Sjoerd C. de Vries Jan 4 '12 at 21:13
    
What do you mean by "vector field with one variable"? Are you assigning a vector to each point of a link, and want to plot that vector on the line? – Szabolcs Jan 4 '12 at 21:28
up vote 13 down vote accepted

An easy workaround would be to use a 2D-VectorPlot with a dummy variable like this:

VectorPlot[
  {Cos[t], Sin[t]}, {t, 0, 2 \[Pi]}, {s, -1/2, 1/2},
  AspectRatio -> Automatic,
  VectorPoints -> {15, 3}, 
  FrameLabel -> {"t", None}
]

VectorPlot with dummy variable

Or what probably makes more sense is to discretize the curve that you get when you follow the vector while increasing t. This is e.g. useful for Feynman-style Action-integrals in quantum mechanics.

Module[
  {t, dt = 0.1, vectors, startpoints, startpoint, vector, spv, spvs},
  vectors = Table[dt {Cos[t], Sin[t]}, {t, 0, 2 \[Pi], dt}];
  startpoints = Accumulate[vectors];
  spvs = Transpose[{startpoints, vectors}];
  Graphics[Table[Arrow[{spv[[1]], spv[[1]] + spv[[2]]}], {spv, spvs}]]
]

Feynman 1D-vectorplot

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