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https://github.com/sourceduty/rocket_lab
π Design, engineer and program a rocket for space.
https://github.com/sourceduty/rocket_lab
ai artificial-intelligence astronaut astrophysics chatgpt customgpt design engineering gpt openai outer-space rocket rocket-design rocket-science rocketscience rocketship space space-design space-engineering space-rocket
Last synced: about 1 month ago
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π Design, engineer and program a rocket for space.
- Host: GitHub
- URL: https://github.com/sourceduty/rocket_lab
- Owner: sourceduty
- Created: 2024-12-01T15:14:33.000Z (about 1 month ago)
- Default Branch: main
- Last Pushed: 2024-12-01T15:25:37.000Z (about 1 month ago)
- Last Synced: 2024-12-01T16:28:28.558Z (about 1 month ago)
- Topics: ai, artificial-intelligence, astronaut, astrophysics, chatgpt, customgpt, design, engineering, gpt, openai, outer-space, rocket, rocket-design, rocket-science, rocketscience, rocketship, space, space-design, space-engineering, space-rocket
- Homepage: https://chatgpt.com/g/g-674c7c83ff6c8191aa9f836f4b50531e-rocket-lab
- Size: 12.7 KB
- Stars: 0
- Watchers: 1
- Forks: 0
- Open Issues: 0
-
Metadata Files:
- Readme: README.md
Awesome Lists containing this project
README
> Design, engineer and program a rocket for space.
#
[Rocket Lab](https://chatgpt.com/g/g-674c7c83ff6c8191aa9f836f4b50531e-rocket-lab) is specifically designed to assist with aerospace engineering and rocket design projects. It helps users by providing detailed, mission-specific guidance on creating rockets for various purposes, such as launching payloads to low Earth orbit (LEO), reaching the Moon, or venturing to interplanetary destinations. The GPT specializes in breaking down the rocket design process into modular stages, starting with defining mission parameters like payload weight and destination. It incorporates expertise in structural design, material selection, and aerodynamics to craft efficient and reliable rocket models. Users can leverage this tool to conceptualize rocket components like fuselages, engines, and payload bays with precision.
Beyond design, Rocket Lab focuses on engineering system integration, emphasizing propulsion, avionics, thermal management, and redundancy in power systems. It provides recommendations for selecting and combining technologies like liquid and solid propulsion systems, avionics hardware, and communication modules. Users can also receive guidance on prototyping with accessible tools like Raspberry Pi before scaling up to space-grade systems. By integrating thermal control features, electrical harnesses, and robust materials, this GPT ensures that users account for the challenging conditions of space while maintaining efficiency and safety.
Finally, the GPT supports programming and rigorous testing phases, guiding users through software development for flight control, data collection, and error correction. It offers advice on using simulation tools like MATLAB and Python for early modeling, as well as C++ for real-time performance in flight systems. Testing recommendations include static engine firings, wind tunnel experiments, and vibration tests to validate the rocketβs resilience under mission conditions. This iterative development approach ensures continuous improvement based on feedback and test outcomes. Overall, Rocket Lab is a comprehensive tool for anyone involved in aerospace design, from students to professionals seeking advanced technical support.
#
### Specifications
| Category | Option | Description |
|----------------------|------------------------------------|-----------------------------------------------------------------------------|
| Payload Weight | Micro (<500 kg) | Small payloads such as CubeSats or experiments. |
| | Small (500β2000 kg) | Small satellite constellations or medium-sized payloads. |
| | Medium (2000β20,000 kg) | Large satellites or space station components. |
| | Heavy (>20,000 kg) | Manned missions, large interplanetary payloads. |
| Destination | LEO (Low Earth Orbit) | 180β2,000 km altitude for most satellites and experiments. |
| | GEO (Geostationary Orbit) | ~36,000 km altitude for communications satellites. |
| | Lunar | Moon missions, including orbiters and landers. |
| | Interplanetary (e.g., Mars) | Deep space missions to other planets or celestial bodies. |
| Mission Duration | Short-term (days to weeks) | Experiments, satellite deployments, short crewed missions. |
| | Long-term (months to years) | Space station modules, interplanetary exploration, or deep space probes. |
| Special Needs | Manned | Requires life support systems and safety redundancies. |
| | Unmanned | For satellites, probes, or experiments. |
| | Scientific Instruments | Special payloads requiring controlled environments (e.g., telescopes). |
| | Satellite Deployment | Mission designed to deploy one or multiple satellites into specific orbits. |
#
### Related Links
[ChatGPT](https://github.com/sourceduty/ChatGPT)
[Satellite Lab](https://github.com/sourceduty/Satellite_Lab)
[Space](https://github.com/sourceduty/Space)
[Mars](https://github.com/sourceduty/Mars)
[SpaceX Starship](https://github.com/sourceduty/SpaceX_Starship)
[Space Agencies](https://github.com/sourceduty/Space_Agencies)
[Station in Space](https://chat.openai.com/g/g-RhQ7LG2GQ-station-in-space)
[Space Simulator](https://chat.openai.com/g/g-HiBjZs8sv-space-simulator)
[Astronaut Jargon](https://github.com/sourceduty/Astronaut_Jargon)
[Alien Life](https://github.com/sourceduty/Alien_Life)
[Areospace Simulator](https://github.com/sourceduty/Aerospace_Simulator)
[WW3](https://github.com/sourceduty/WW3)
[Space Maintenance](https://github.com/sourceduty/Space_Maintenance)
[Space Terminal](https://github.com/sourceduty/Space_Terminal)
[Cosmology](https://github.com/sourceduty/Cosmology)
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