Fayl:Inclinedthrow.gif
Bundan kattaroq tasvir yoʻq.
Inclinedthrow.gif (400 × 288 piksel, fayl hajmi: 374 KB, MIME tipi: image/gif, looped, 102 frames, 10 soniya)
Qisqa izoh
| Taʼrif |
English: Trajectories of three objects thrown at the same angle (70°). The black object doesn't experience any form of drag and moves along a parabola. The blue object experiences Stokes' drag, and the green object Newton drag. |
| Sanasi | |
| Manba | Oʻzimning ishim |
| Muallif | AllenMcC. |
| Other versions | Inclinedthrow2.gif |
| GIF genesis |  This plot was created with Matplotlib. |
| Source code | Python code#!/usr/bin/python3
# -*- coding: utf8 -*-
import os
import inspect
from math import *
import numpy as np
from scipy.integrate import odeint
from scipy.optimize import newton
import matplotlib as mpl
import matplotlib.pyplot as plt
from matplotlib import animation
# settings
mpl.rcParams['path.snap'] = False
fname = 'inclinedthrow'
size = 400, 288
l, w, b, h = 22.5/size[0], 1-23/size[0], 22.5/size[1], 1-23/size[1]
nframes = 102
delay = 8
lw = 1.
ms = 6
c1, c2, c3 = "#000000", "#0000ff", "#007100"
def projectile_motion(g, mu, pot, xy0, vxy0, tt):
# use a four-dimensional vector function vec = [x, y, vx, vy]
def dif(vec, t):
# time derivative of the whole vector vec
v = hypot(vec[2], vec[3])
vxrel, vyrel = vec[2] / v, vec[3] / v
return [vec[2], vec[3], -mu * v**pot * vxrel, -g - mu * v**pot * vyrel]
# solve the differential equation numerically
vec = odeint(dif, [xy0[0], xy0[1], vxy0[0], vxy0[1]], tt)
return vec[:, 0], vec[:, 1], vec[:, 2], vec[:, 3] # return x, y, vx, vy
g = 1.
theta = radians(70)
v0 = sqrt(g/sin(2*theta))
vinf = 2.1
# use identical terminal velocity vinf for both types of friction
mu_stokes = g / vinf**1
mu_newton = g / vinf**2
x0, y0 = 0.0, 0.0
vx0, vy0 = v0 * cos(theta), v0 * sin(theta)
T = newton(lambda t: projectile_motion(g, 0, 0, (x0, y0), (vx0, vy0), [0, t])[1][1], 2*vy0/g)
nsub = 10
tt = np.linspace(0, T * nframes / (nframes - 1), (nframes - 1) * nsub + 1)
traj_free = projectile_motion(g, 0, 0, (x0, y0), (vx0, vy0), tt)
traj_stokes = projectile_motion(g, mu_stokes, 1, (x0, y0), (vx0, vy0), tt)
traj_newton = projectile_motion(g, mu_newton, 2, (x0, y0), (vx0, vy0), tt)
def animate(nframe, saveframes=False):
print(nframe, '/', nframes)
t = T * float(nframe) / nframes
plt.clf()
fig.gca().set_position((l, b, w, h))
fig.gca().set_aspect("equal")
plt.xlim(0, 1)
plt.ylim(0, (h*size[1]) / (w*size[0]))
plt.xticks([]), plt.yticks([])
plt.xlabel('Distance', size=12)
plt.ylabel('Height', size=12)
plt.plot(traj_free[0][:nframe*nsub+1], traj_free[1][:nframe*nsub+1],
'-', lw=lw, color=c1)
plt.plot(traj_free[0][nframe*nsub], traj_free[1][nframe*nsub],
'ok', color=c1, markersize=ms, markeredgewidth=0)
plt.plot(traj_stokes[0][:nframe*nsub+1], traj_stokes[1][:nframe*nsub+1],
'-', lw=lw, color=c2)
plt.plot(traj_stokes[0][nframe*nsub], traj_stokes[1][nframe*nsub],
'ok', color=c2, markersize=ms, markeredgewidth=0)
plt.plot(traj_newton[0][:nframe*nsub+1], traj_newton[1][:nframe*nsub+1],
'-', lw=lw, color=c3)
plt.plot(traj_newton[0][nframe*nsub], traj_newton[1][nframe*nsub],
'ok', color=c3, markersize=ms, markeredgewidth=0)
if saveframes:
# export frame
dig = int(ceil(log10(nframes)))
fsavename = ('frame{:0' + str(dig) + '}.svg').format(nframe)
fig.savefig(fsavename)
with open(fsavename) as f: content = f.read()
content = content.replace('pt"', 'px"').replace('pt"', 'px"')
with open(fsavename, 'w') as f: f.write(content)
fig = plt.figure(figsize=(size[0]/72., size[1]/72.))
os.chdir(os.path.dirname(os.path.abspath(inspect.getfile(inspect.currentframe()))))
for i in range(nframes):
animate(i, True)
os.system('convert -loop 0 -delay ' + str(delay) + ' frame*.svg +dither ' + fname + '.gif')
# keep last frame for two seconds
os.system('gifsicle -k32 --color-method blend-diversity -b ' + fname + '.gif -d' + str(delay) + ' "#0-' + str(nframes-2) + '" -d200 "#' + str(nframes-1) + '"')
for i in os.listdir('.'):
if i.startswith('frame') and i.endswith('.svg'):
os.remove(i)
|
Litsenziyalash
I, the copyright holder of this work, hereby publish it under the following license:
Bu fayl Creative Commons asosida litsenziyalangan Attribution- Share Alike 3.0 Unported litsenziyasi.
- Siz erkinsiz:
- ulashishga – ishlanmani nusxalash, tarqatish va uzatish
- remiks qilishga – ishni moslashtirishga
- Quyidagi shartlar asosida:
- atribut – Siz tegishli litsenziyaga havolani taqdim etishingiz va oʻzgartirishlar kiritilganligini koʻrsatishingiz kerak. Siz buni har qanday oqilona yoʻl bilan qilishingiz mumkin, lekin litsenziar Sizni yoki Sizning foydalanishingizni ma'qullashini taklif qiladigan tarzda emas.
- bir xil ulashish – Agar Siz materialni remiks qilsangiz, oʻzgartirsangiz yoki unga asoslansangiz, oʻz hissalaringizni asl nusxadagi kabi bir xil yoki mos litsenziya ostida tarqatishingiz kerak.
Fayl tarixi
Faylning biror paytdagi holatini koʻrish uchun tegishli sana/vaqtga bosingiz.
| Sana/Vaqt | Miniatura | Oʻlchamlari | Foydalanuvchi | Izoh | |
|---|---|---|---|---|---|
| joriy | 16:10, 21-Oktyabr 2020 | | 400 × 288 (374 KB) | Geek3 | adjusted friction coefficients such to make terminal velocity of both trajectories equal. In this case, the Newton projectile moves further. |
| 12:57, 21-Oktyabr 2009 |  | 400 × 288 (453 KB) | AllenMcC. | added Newton drag | |
| 00:40, 22-Dekabr 2008 |  | 400 × 299 (393 KB) | AllenMcC. | == Summary == {{Information |Description={{en|1=Trajectories of two objects thrown at the same angle. The blue object doesn't experience any drag and moves along a parabola. The black object experiences Stokes' drag.}} |Source=Own work by uploader |Author | |
| 20:12, 18-Dekabr 2008 |  | 400 × 299 (393 KB) | AllenMcC. | == Summary == {{Information |Description={{en|1=Trajectories of two objects thrown at the same angle. The blue object doesn't experience any drag and moves along a parabola. The black object experiences Stokes' drag.}} |Source=Own work by uploader |Author | |
| 04:07, 15-Dekabr 2008 |  | 700 × 519 (636 KB) | AllenMcC. | {{Information |Description={{en|1=Trajectories of two objects thrown at the same angle. The blue object doesn't experience friction and moves along a parabola. The black object experiences Stokes friction.}} |Source=Own work by uploader |Author=[[User:All |
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