# LM-100

> satellite bus

**Wikidata**: [Q124153039](https://www.wikidata.org/wiki/Q124153039)  
**Source**: https://4ort.xyz/entity/lm-100

## Summary
The LM-100 is a spacecraft bus model developed by Lockheed Martin, serving as a standardized infrastructure for multiple-production spacecraft. It functions as a service module section, typically housing payloads such as space experiments or instruments, and is classified as a satellite bus.

## Key Facts
- **Aliases**: Lockheed Martin LM-100
- **Instance of**: Spacecraft model
- **Subclass of**: Spacecraft bus
- **Manufacturer**: Lockheed Martin
- **Country of origin**: United States
- **Wikidata description**: Satellite bus
- **Parent classification**: Spacecraft bus (general model on which multiple-production spacecraft are often based)
- **Function**: Provides infrastructure for spacecraft, typically housing payloads
- **Sitelink count**: 25 (indicating its prominence in knowledge databases)

## FAQs
- **What is the LM-100 used for?** The LM-100 serves as a standardized spacecraft bus, providing structural and functional support for payloads such as space experiments or instruments.
- **Who manufactures the LM-100?** Lockheed Martin is the manufacturer of the LM-100 spacecraft bus.
- **What is the classification of the LM-100?** The LM-100 is classified as a spacecraft model and specifically as a spacecraft bus.
- **Where was the LM-100 developed?** The LM-100 was developed in the United States.
- **How is the LM-100 related to other spacecraft?** The LM-100 is part of a broader category of spacecraft buses, which are general models used as the foundation for multiple-production spacecraft.

## Why It Matters
The LM-100 plays a critical role in space exploration by providing a reliable, modular framework for spacecraft design. Its standardized bus architecture allows for efficient production and deployment of satellites, reducing costs and development time. By serving as a service module, it enables the integration of diverse payloads, making it versatile for various missions. Its widespread use underscores its importance in advancing space technology and supporting scientific research.

## Notable For
- **Standardized design**: The LM-100 is notable for its role as a standardized spacecraft bus, facilitating mass production and consistent performance.
- **Modular architecture**: Its service module section allows for flexible integration of different payloads, enhancing mission adaptability.
- **Lockheed Martin’s contribution**: As a product of Lockheed Martin, the LM-100 reflects the company’s expertise in spacecraft engineering and innovation.

## Body
### Classification and Function
The LM-100 is classified as a spacecraft bus, a general model used as the foundation for multiple-production spacecraft. It serves as the infrastructure of a spacecraft, typically housing the payload—such as space experiments or instruments—while providing essential services. This modular approach streamlines spacecraft development and enhances mission flexibility.

### Development and Origin
The LM-100 was developed by Lockheed Martin, a leading aerospace company based in the United States. Its design emphasizes efficiency and scalability, making it a preferred choice for satellite manufacturers. The spacecraft bus’s standardized architecture allows for rapid deployment and cost-effective production.

### Related Entities
The LM-100 is part of a broader ecosystem of spacecraft buses, which are essential for modern space exploration. Its classification as a spacecraft model aligns it with other standardized spacecraft designs, ensuring compatibility and interoperability in space missions. The LM-100’s prominence is reflected in its extensive sitelink count, indicating its widespread recognition in knowledge databases.

### Significance in Space Technology
The LM-100’s role as a satellite bus highlights its importance in advancing space technology. By providing a reliable platform for payloads, it supports a wide range of scientific and commercial missions. Its modular design allows for customization, making it adaptable to various mission requirements. This versatility underscores its value in the evolving landscape of space exploration.