File:VFPt capacitor-thin-rods.svg

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Original file(SVG file, nominally 800 × 600 pixels, file size: 30 KB)

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Summary[edit]

Description
English: Electric field of two parallel uniformely charged rods, acting as a capacitor. The field is accurately computed for a uniform charge distribution on each rod.
Date
Source Own work
Author Geek3
Other versions

Slightly different field configurations:

  • with infinite rectangular plates instead of thin wires
    with infinite rectangular plates instead of thin wires
  • with extended 2D round plates instead of thin wires
    with extended 2D round plates instead of thin wires
SVG development
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The SVG code is valid.
 
This plot was created with VectorFieldPlot.
Source code
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Python code

# paste this code at the end of VectorFieldPlot 1.6
doc = FieldplotDocument('VFPt_capacitor-thin-rods', width=800, height=600, commons=True)
l = 4.5
d = 1.5
plates = [{'x0':-l/2., 'y0':d/2., 'x1':l/2., 'y1':d/2., 'Q':1.},
          {'x0':-l/2., 'y0':-d/2., 'x1':l/2., 'y1':-d/2., 'Q':-1.}]
field = Field({'charged_lines':
    [[p['x0'], p['y0'], p['x1'], p['y1'], p['Q']] for p in plates]})

def startpath(t):
    # take an oval with stright lines and half-cirles around one plate
    tt = (t%1) * (2 * l + pi * d)
    if tt <= l*0.5:
        return sc.array([tt, d])
    elif tt <= l*0.5 + pi/2.*d:
        phi = (tt - l*0.5) / (d/2.)
        return sc.array([l*0.5 + d*0.5*sin(phi), d*0.5 + d*0.5*cos(phi)])
    elif tt <= l*1.5 + pi/2.*d:
        return sc.array([l - (tt - pi/2.*d), 0.])
    elif tt <= l*1.5 + pi*d:
        phi = (tt - l*1.5) / (d/2.)
        return sc.array([-l*0.5 + d*0.5*sin(phi), d*0.5 + d*0.5*cos(phi)])
    else:
        return sc.array([tt - (l*2. + pi*d), d])
dstartpath = lambda t: (startpath(t+1e-6) - startpath(t-1e-6)) / 2e-6
FieldSum = lambda t0, t1: ig.quad(lambda t:
    sc.cross(field.F(startpath(t)), dstartpath(t)), t0, t1)[0]
Ftotal = FieldSum(0, 1)
def startpos(s):
    t = op.brentq(lambda t: FieldSum(0, t) / Ftotal - s, 0, 1)
    return startpath(t)

# plot field lines
n = 24
for i in range(n):
    p0 = startpos((0.5 + i) / n)
    line = FieldLine(field, p0, directions='both', maxr=2000.)
    doc.draw_line(line, arrows_style={'dist':2, 'min_arrows':1})

# plot rods
D = 0.055
lw = 0.01
nsign = n
plus = 'M 0,-0.02 v 0.04 M -0.02,0 h 0.04'
minus = 'M -0.02,0 h 0.04'
defs = doc.draw_object('g', {})
grad = doc.draw_object('linearGradient', {'id':'grad', 'x1':'0', 'x2':'0',
    'y1':str(-D), 'y2':str(D), 'gradientUnits':'userSpaceOnUse'}, defs)
for o, c, a in ((0, '#000', 0.3), (0.3, '#999', 0.2),
                (0.8, '#fff', 0.25), (1, '#fff', 0.65)):
    doc.draw_object('stop', {'id':'grad',
         'offset':str(o), 'stop-color':c, 'stop-opacity':str(a)}, grad)

for p in plates:
    M = 0.5 * (sc.array([p['x0'], p['y0']]) + sc.array([p['x1'], p['y1']]))
    R = sc.array([p['x1'], p['y1']]) - M
    a = atan2(R[1], R[0])
    if p['Q'] > 0:
        col = '#f00'
        sign = plus
    else:
        col = '#12f'
        sign = minus
    transform = 'translate({:.6g},{:.6g})'.format(M[0], M[1])
    transform += ' rotate({:.6g})'.format(degrees(a))
    doc.draw_object('rect', {'x':-vabs(R)-lw/2., 'width':2*vabs(R)+lw,
        'y':-D, 'height':2*D, 'transform':transform,
        'style':'fill:{:s}; stroke:none'.format(col)})
    doc.draw_object('rect', {'x':-vabs(R)-lw/2., 'width':2*vabs(R)+lw,
        'y':-D, 'height':2*D, 'transform':transform,
        'style':'fill:url(#grad); stroke:#000; stroke-width:{:.6g}'.format(lw)})
    for i in range(nsign):
        pos = M + R * (2 * (i + 0.5) / nsign - 1)
        doc.draw_object('path', {'d':sign,
        'transform':'translate({:.6g},{:.6g})'.format(*pos),
        'style':'fill:none; stroke:#000; stroke-width:{:.6g}; '.format(2*lw) +
        'stroke-linecap:square'})

doc.write()

Licensing[edit]

I, the copyright holder of this work, hereby publish it under the following license:
w:en:Creative Commons
attribution share alike
This file is licensed under the Creative Commons Attribution-Share Alike 4.0 International license.
You are free:
  • to share – to copy, distribute and transmit the work
  • to remix – to adapt the work
Under the following conditions:
  • attribution – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
  • share alike – If you remix, transform, or build upon the material, you must distribute your contributions under the same or compatible license as the original.

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Date/TimeThumbnailDimensionsUserComment
current19:50, 15 October 2017Thumbnail for version as of 19:50, 15 October 2017800 × 600 (30 KB)Geek3 (talk | contribs)User created page with UploadWizard

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