Space Crash Simulator
Способ оплаты
Купить Space Crash Simulator, игра на ПК | Steam
Вы приобретаете игру в Steam, которую получите ПОДАРКОМ на Ваш аккаунт. Это происходит автоматически 24\7 без праздников и выходных.Процесс получения гифта очень простой и занимает пару минут:
- После оплаты к вам в друзья Steam добавится бот. Пожалуйста, примите его в друзья, чтобы получить игру.
- После добавления, вам будет отправлен подарок в виде игры - нужно принять его.
- Игра у вас на аккаунте - можно играть.
Системные требования
- ОС: Windows 10
- Процессор: Intel/AMD 2+ Cores (1.7GHz and above)
- Оперативная память: 2 GB ОЗУ
- Видеокарта: Intel HD 4600 (AMD or NVIDIA equivalent)
- Место на диске: 1 GB
Описание
Space Crash Simulator is a real-time planetary collision sandbox powered by GPU-accelerated SPH (Smoothed Particle Hydrodynamics). Every planet, star, and fragment is built from interacting particles that deform, melt, and break apart under extreme forces.
The simulator is designed as an open-ended tool rather than a traditional game. There are no missions or objectives. You set the initial conditions, run the simulation, and observe the results.
You can control key physical parameters such as:
particle count
particle mass
viscosity
impact velocity
spin and angular momentum
Planets can be customized with built-in textures or user-imported images. A high-mass “black hole particle” is also available for experiments involving tidal disruption and extreme gravity.
Simulation Modes
Two-Body Collisions
Direct or glancing impacts between two celestial bodies.
Three-Body Interactions
Unpredictable gravitational dynamics where small differences in initial conditions produce very different outcomes.
Protoplanetary Disc + Star
Experiments involving accretion, disc formation, and early system evolution.
Galaxy Mode
Simplified large-scale interactions between galactic cores. This mode focuses on gravitational dynamics and does not apply full SPH fluid simulation due to scale.
Physics Approach
Space Crash Simulator uses Smoothed Particle Hydrodynamics to model high-energy impacts and material flow. This method is commonly used in scientific simulation of fluids, pressure, and deformation. As a result, bodies behave like cohesive matter under stress rather than rigid objects. Fragmentation, shock fronts, stretching, and accretion emerge naturally from the underlying equations.
Intended Use
The simulator is suited for players interested in:
astrophysics
orbital mechanics
impact dynamics
scientific visualization
open-ended sandbox experimentation
It is not a mission-based game and does not include a storyline, progression system, or competitive mechanics. The focus is entirely on constructing scenarios, adjusting parameters, and observing the physical behaviour that follows.
