Plot of a tornado shape like surface
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Which will be a simple code to plot a shape of a surface tornado like cone?
Any help is welcome.
plotting
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$begingroup$
Which will be a simple code to plot a shape of a surface tornado like cone?
Any help is welcome.
plotting
New contributor
$endgroup$
add a comment |
$begingroup$
Which will be a simple code to plot a shape of a surface tornado like cone?
Any help is welcome.
plotting
New contributor
$endgroup$
Which will be a simple code to plot a shape of a surface tornado like cone?
Any help is welcome.
plotting
plotting
New contributor
New contributor
New contributor
asked 3 hours ago
janmarqzjanmarqz
1113
1113
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2 Answers
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My quick go at it:
ContourPlot3D[
(x - z/5 Cos[[Pi] z])^2 + (y - z/5 Sin[[Pi] z])^2 == (z/4)^2
, {x, -1, 1}, {y, -1, 1}, {z, 0, 2}
, Mesh -> None, Axes -> False, Boxed -> False
, PlotTheme -> "ThickSurface", ContourStyle -> RGBColor[0.41, 0.5, 0.63]
]
$endgroup$
add a comment |
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I like "surface synthesis" questions. Here's a simple-minded model that combines an Archimedean spiral with a power law curve:
With[{h = 1/10, n = 24, c = 4, p = 2/3},
ParametricPlot3D[{t (h Cos[n t] + Cos[v]), t (h Sin[n t] + Sin[v]), (c t)^p},
{t, 0, 3}, {v, 0, 2 π}, Axes -> None, Boxed -> False,
Lighting -> "Neutral", Mesh -> False, PlotPoints -> 85,
PlotStyle -> Opacity[3/4, Black], ViewPoint -> {3.2, -1.6, 1.}]]
Adjust parameters as seen fit.
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Your Answer
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2 Answers
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2 Answers
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$begingroup$
My quick go at it:
ContourPlot3D[
(x - z/5 Cos[[Pi] z])^2 + (y - z/5 Sin[[Pi] z])^2 == (z/4)^2
, {x, -1, 1}, {y, -1, 1}, {z, 0, 2}
, Mesh -> None, Axes -> False, Boxed -> False
, PlotTheme -> "ThickSurface", ContourStyle -> RGBColor[0.41, 0.5, 0.63]
]
$endgroup$
add a comment |
$begingroup$
My quick go at it:
ContourPlot3D[
(x - z/5 Cos[[Pi] z])^2 + (y - z/5 Sin[[Pi] z])^2 == (z/4)^2
, {x, -1, 1}, {y, -1, 1}, {z, 0, 2}
, Mesh -> None, Axes -> False, Boxed -> False
, PlotTheme -> "ThickSurface", ContourStyle -> RGBColor[0.41, 0.5, 0.63]
]
$endgroup$
add a comment |
$begingroup$
My quick go at it:
ContourPlot3D[
(x - z/5 Cos[[Pi] z])^2 + (y - z/5 Sin[[Pi] z])^2 == (z/4)^2
, {x, -1, 1}, {y, -1, 1}, {z, 0, 2}
, Mesh -> None, Axes -> False, Boxed -> False
, PlotTheme -> "ThickSurface", ContourStyle -> RGBColor[0.41, 0.5, 0.63]
]
$endgroup$
My quick go at it:
ContourPlot3D[
(x - z/5 Cos[[Pi] z])^2 + (y - z/5 Sin[[Pi] z])^2 == (z/4)^2
, {x, -1, 1}, {y, -1, 1}, {z, 0, 2}
, Mesh -> None, Axes -> False, Boxed -> False
, PlotTheme -> "ThickSurface", ContourStyle -> RGBColor[0.41, 0.5, 0.63]
]
answered 2 hours ago
Thies HeideckeThies Heidecke
7,0712638
7,0712638
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add a comment |
$begingroup$
I like "surface synthesis" questions. Here's a simple-minded model that combines an Archimedean spiral with a power law curve:
With[{h = 1/10, n = 24, c = 4, p = 2/3},
ParametricPlot3D[{t (h Cos[n t] + Cos[v]), t (h Sin[n t] + Sin[v]), (c t)^p},
{t, 0, 3}, {v, 0, 2 π}, Axes -> None, Boxed -> False,
Lighting -> "Neutral", Mesh -> False, PlotPoints -> 85,
PlotStyle -> Opacity[3/4, Black], ViewPoint -> {3.2, -1.6, 1.}]]
Adjust parameters as seen fit.
$endgroup$
add a comment |
$begingroup$
I like "surface synthesis" questions. Here's a simple-minded model that combines an Archimedean spiral with a power law curve:
With[{h = 1/10, n = 24, c = 4, p = 2/3},
ParametricPlot3D[{t (h Cos[n t] + Cos[v]), t (h Sin[n t] + Sin[v]), (c t)^p},
{t, 0, 3}, {v, 0, 2 π}, Axes -> None, Boxed -> False,
Lighting -> "Neutral", Mesh -> False, PlotPoints -> 85,
PlotStyle -> Opacity[3/4, Black], ViewPoint -> {3.2, -1.6, 1.}]]
Adjust parameters as seen fit.
$endgroup$
add a comment |
$begingroup$
I like "surface synthesis" questions. Here's a simple-minded model that combines an Archimedean spiral with a power law curve:
With[{h = 1/10, n = 24, c = 4, p = 2/3},
ParametricPlot3D[{t (h Cos[n t] + Cos[v]), t (h Sin[n t] + Sin[v]), (c t)^p},
{t, 0, 3}, {v, 0, 2 π}, Axes -> None, Boxed -> False,
Lighting -> "Neutral", Mesh -> False, PlotPoints -> 85,
PlotStyle -> Opacity[3/4, Black], ViewPoint -> {3.2, -1.6, 1.}]]
Adjust parameters as seen fit.
$endgroup$
I like "surface synthesis" questions. Here's a simple-minded model that combines an Archimedean spiral with a power law curve:
With[{h = 1/10, n = 24, c = 4, p = 2/3},
ParametricPlot3D[{t (h Cos[n t] + Cos[v]), t (h Sin[n t] + Sin[v]), (c t)^p},
{t, 0, 3}, {v, 0, 2 π}, Axes -> None, Boxed -> False,
Lighting -> "Neutral", Mesh -> False, PlotPoints -> 85,
PlotStyle -> Opacity[3/4, Black], ViewPoint -> {3.2, -1.6, 1.}]]
Adjust parameters as seen fit.
answered 14 mins ago
J. M. is slightly pensive♦J. M. is slightly pensive
98.1k10306465
98.1k10306465
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janmarqz is a new contributor. Be nice, and check out our Code of Conduct.
janmarqz is a new contributor. Be nice, and check out our Code of Conduct.
janmarqz is a new contributor. Be nice, and check out our Code of Conduct.
janmarqz is a new contributor. Be nice, and check out our Code of Conduct.
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