Pendulum Studio
Simulate real-time motion of various pendulum systems in both 2D and 3D!
Voladd · com.vlvolad.pendulumstudio
UpdatedJun 4, 2024
PublishedApr 22, 2022
Packagecom.vlvolad.pendulumstudio
MD53b0dbc339d58f1477afc17cbc422bb8d
SHA1 (signer)7B:93:AA:50:D7:B2:D9:41:45:FB:7F:AF:23:FE:B7:5E:E1:DA:91:2F
Signed byCN=Volodymyr Vovchenko, C=UA
Malware scanTRUSTED
Contact[email protected]
What's new
Buttons can auto-hide now
Description
Simulate the motion of nine different pendulum systems in real time on your phone.
Use the simulation as a live wallpaper.
Included systems:
1) Mathematical pendulum (2D): the simplest pendulum.
2) Pendulum wave effect (3D): when multiple pendulums are combined a peculiar wave effect appears.
3) Spherical pendulum (3D): a three-dimensional generalization of the mathematical pendulum.
4) Spring pendulum (2D): a mass connected to a spring.
5) Spring pendulum (3D): a mass connected to a spring in 3D.
6) Double pendulum (2D): the simplest example of a system which exhibits chaotic motion and is highly sensitive to the initial conditions.
7) Double spherical pendulum (3D): a three-dimensional generalization of the double pendulum.
8) Spring mathematical pendulum (2D): a rod attached to a spring.
9) Spring spherical pendulum (3D): a rod attached to a spring in 3D.
Features:
- All simulations are performed in real time by numerically solving the Lagrange equations of motion.
- Use the accelerometer of your device for dynamical determination of the gravity force.
- Take into the account the friction force to see the damping of the pendulum motion (recommended when using sensor gravity).
- Use your fingers to interactively change the positions of the pendulums.
- Use pinch to zoom gesture.
- All of the parameters for each system can be modified in the preferences.
Acknowledgements:
OpenGL tutorials at http://www.learnopengles.com/
ColorPickerView library at https://github.com/danielnilsson9/color-picker-view
Source code of the app is available at https://github.com/vlvovch/pendulum-studio
Use the simulation as a live wallpaper.
Included systems:
1) Mathematical pendulum (2D): the simplest pendulum.
2) Pendulum wave effect (3D): when multiple pendulums are combined a peculiar wave effect appears.
3) Spherical pendulum (3D): a three-dimensional generalization of the mathematical pendulum.
4) Spring pendulum (2D): a mass connected to a spring.
5) Spring pendulum (3D): a mass connected to a spring in 3D.
6) Double pendulum (2D): the simplest example of a system which exhibits chaotic motion and is highly sensitive to the initial conditions.
7) Double spherical pendulum (3D): a three-dimensional generalization of the double pendulum.
8) Spring mathematical pendulum (2D): a rod attached to a spring.
9) Spring spherical pendulum (3D): a rod attached to a spring in 3D.
Features:
- All simulations are performed in real time by numerically solving the Lagrange equations of motion.
- Use the accelerometer of your device for dynamical determination of the gravity force.
- Take into the account the friction force to see the damping of the pendulum motion (recommended when using sensor gravity).
- Use your fingers to interactively change the positions of the pendulums.
- Use pinch to zoom gesture.
- All of the parameters for each system can be modified in the preferences.
Acknowledgements:
OpenGL tutorials at http://www.learnopengles.com/
ColorPickerView library at https://github.com/danielnilsson9/color-picker-view
Source code of the app is available at https://github.com/vlvovch/pendulum-studio
Required features
- Faketouch android.hardware.faketouch
