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- Website Age
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- Alexa Rank no-data
- Country
United States
- IP Address
104.17.32.82
HTML SIZE INFORMATION
Text / Code Ratio
26.90 %
docs.poliastro.space has a website text/code ratio of 26.90 %. Search engine crawlers tend to not pick up pages with inadequate content.
IMPORTANT HTML TAGS AND COUNTS
Titles
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Poliastro - astrodynamics in python¶ |
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Success stories¶ |
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Contents¶ |
Text Styling
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“My team and I used Poliastro for our final project in our Summer App Space program. This module helped us in plotting asteroids by using the data provided to us. It was very challenging finding a module that can take orbits from the orbital elements, plot planets, and multiple ones. This module helped us because we were able to understand the code as most of us were beginners and make some changes the way we wanted our project to turn out. We made small changes such as taking out the axis and creating a function that will create animations. I am happy we used Poliastro because it helped us directs us in a direction where we were satisfied of our final product.” |
2 |
“We are a group of students at University of Illinois at Urbana-Champaign, United States. We are currently working on a student AIAA/AAS satellite compet**ion to design a satellite perform some science missions on asteroid (469219) 2016 HO3. We are using your poliastro python package in designing and visualizing the trajectory from GEO into asteroid’s orbit. Thank you for your work on poliastro, especially the APIs that are very clear and informational, which helps us significantly.” |
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“We, at the Inst**ute of Space and Planetary Astrophysics (ISPA, University of Karachi), are using Poliastro as part of Space Flight Dynamics Text Book development program. The idea is to develop a book suitable for undergrad students which will not only cover theoretical background but will also focus on some comp****tional tools. We chose Poliastro as one of the packages because it was very well written and provided results with good accuracy. It is especially useful in covering some key topics like the Lambert’s problem. We support the use of Poliastro and open source software because they are easily accessible to students (without any charges, unlike some other tools). A great plus point for Poliastro is that it is Python based and Python is now becoming a very important tool in areas related to Space Sciences and Technologies.” |
LINK ANALYSIS
Total Link Count: 113
Internal Link Count
: 99
No |
Text |
Type |
1 |
About poliastro |
text |
2 |
Getting started |
text |
3 |
User guide |
text |
4 |
Jupyter notebooks |
text |
5 |
High level API |
text |
6 |
Core level API |
text |
7 |
What’s new |
text |
8 |
Contributing |
text |
9 |
References |
text |
10 |
poliastro |
text |
11 |
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empty |
12 |
¶ |
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13 |
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image |
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¶ |
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¶ |
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¶ |
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About poliastro |
text |
18 |
Overview |
text |
19 |
History |
text |
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Related software |
text |
21 |
Future ideas |
text |
22 |
Note of the original author |
text |
23 |
Getting started |
text |
24 |
Requirements |
text |
25 |
Installation |
text |
26 |
Problems and suggestions |
text |
27 |
User guide |
text |
28 |
Defining the orbit: Orbit objects |
text |
29 |
Moving forward in time: propagation |
text |
30 |
Studying non-keplerian orbits: perturbations |
text |
31 |
Studying artificial perturbations: thrust |
text |
32 |
Changing the orbit: Maneuver objects |
text |
33 |
More advanced plotting: OrbitPlotter objects |
text |
34 |
Where are the planets? Computing ephemerides |
text |
35 |
Traveling through space: solving the Lambert problem |
text |
36 |
Fetching Orbits from external sources |
text |
37 |
Creating a CZML doc***ent |
text |
38 |
Jupyter notebooks |
text |
39 |
Analyzing the Parker Solar Probe flybys |
text |
40 |
The atmosphere and its layers |
text |
41 |
Temperature, pressure and density distrubutions |
text |
42 |
Catch that asteroid! |
text |
43 |
Comparing Hohmann and bielliptic transfers |
text |
44 |
Customising static orbit plots |
text |
45 |
Visualize orbital data with Cesium |
text |
46 |
New Horizons launch and trajectory |
text |
47 |
Going to Mars with Python using poliastro |
text |
48 |
Going to Jupiter with Python using Jupyter and poliastro |
text |
49 |
Plotting in 3D |
text |
50 |
Cowell’s formulation |
text |
External Link Count
: 14
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Type |
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Edit on GitHub |
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source code |
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mailing list |
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chat |
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5 |
Molniya orbit |
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source code |
text |
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issue tracker |
text |
8 |
wiki |
text |
9 |
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image |
10 |
benchmarks |
text |
11 |
companion software of the book |
text |
12 |
Sphinx |
text |
13 |
theme |
text |
14 |
Read the Docs |
text |
Nofollow Link Count
: 0
Title Link Count
: 0
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- Cloudflare, Inc.
- Hosted IP Address
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- Hosted Country
- United States
- Host Region
- Virginia , Ashburn
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