# StarDUST SRC

> 28927

**Wikidata**: [Q111497339](https://www.wikidata.org/wiki/Q111497339)  
**Source**: https://4ort.xyz/entity/stardust-src

## Summary
StarDUST SRC is classified as an artificial satellite, defined as a human-made object placed into orbit. It is identified in structured knowledge bases by the identifier 28927 and is represented as a specific entity within the Wolfram Language.

## Key Facts
- **Classification:** StarDUST SRC is an instance of an artificial satellite.
- **Definition:** As an artificial satellite, it is defined as a human-made object put into an orbit.
- **Identifier:** The entity is associated with the specific identifier **28927**.
- **Wolfram Language Code:** It is represented computationally as `Entity["Satellite", "28927"]`.
- **Wikidata Description:** The provided description for the entity in Wikidata is "28927".
- **Contextual Popularity:** The class "artificial satellite" has a sitelink count of 142, indicating high connectivity for its category.

## FAQs
### Q: What is StarDUST SRC?
A: StarDUST SRC is an artificial satellite, which categorizes it as a human-made object launched into orbit. It is uniquely identified in databases by the number 28927.

### Q: How is StarDUST SRC identified in technical systems?
A: In the Wolfram Language and related structured data sources, the entity is coded as `Entity["Satellite", "28927"]`.

### Q: What distinguishes StarDUST SRC from natural celestial bodies?
A: Unlike planets or stars, StarDUST SRC is an "artificial satellite," meaning it is a human-made object specifically designed to be put into orbit.

## Why It Matters
StarDUST SRC matters as a distinct record within the domain of astronautics and orbital mechanics. As an instance of an artificial satellite, it represents the human capacity to place objects into orbit, a fundamental capability of modern space infrastructure. The classification of StarDUST SRC helps organize vast datasets regarding objects in space, allowing researchers and systems to distinguish between specific man-made assets and other celestial phenomena.

Its inclusion in structured knowledge systems like Wikidata and the Wolfram Language highlights the importance of cataloging even individual satellites or satellite components with unique identifiers (such as 28927). This precise identification is critical for tracking objects in Earth's orbit, preventing collisions, and managing the space environment. By existing as a defined entity, StarDUST SRC contributes to the comprehensive map of human-made objects currently circling the Earth.

## Notable For
- Being a member of the "artificial satellite" class, a category with significant data connectivity (142 sitelinks).
- Possessing a unique Wolfram Language entity code, facilitating its use in computational analysis.
- Distinct identification via the number 28927 in knowledge graphs.

## Body
### Classification and Definition
StarDUST SRC is explicitly classified as an **artificial satellite**. In the context of provided knowledge, an artificial satellite is defined broadly as a **human-made object put into an orbit**. This places StarDUST SRC within the taxonomy of astronautical objects that rely on orbital mechanics to remain in space, distinct from probes that leave Earth's orbit or suborbital projectiles.

### Identification and Data Representation
The entity is primarily distinguished by its numeric identifier, **28927**. This number serves as its raw description and its specific label within Wikidata.

In computational environments, specifically the **Wolfram Language**, StarDUST SRC is accessed using the code:
`Entity["Satellite", "28927"]`

This structured representation allows for the entity to be queried and manipulated programmatically within data science and physics applications.

### Contextual Data
While specific orbital parameters are not provided in the raw source, the class "artificial satellite" to which StarDUST SRC belongs is a well-documented category with a sitelink count of 142. This suggests that while the entity itself may be a specific technical entry, its broader classification is widely recognized and interconnected within knowledge bases.