# DFH-3 MFS > 23009 **Wikidata**: [Q111499052](https://www.wikidata.org/wiki/Q111499052) **Source**: https://4ort.xyz/entity/dfh-3-mfs ## Summary DFH‑3 MFS is an artificial satellite— a human‑made object placed into orbit—identified in data repositories by the numeric designation **23009**. It is cataloged in Wikidata and the Wolfram Language as a satellite entity. ## Key Facts - **Instance:** Artificial satellite (human‑made object placed into orbit). - **Identifier:** Listed under the description “23009” in Wikidata. - **Wolfram Entity Code:** `Entity["Satellite", "23009"]`. - **Classification:** Belongs to the class “artificial satellite” used for space‑based missions. - **Data Presence:** Appears in at least 142 sitelinks referencing the artificial‑satellite class. ## FAQs ### Q: What is DFH‑3 MFS? A: DFH‑3 MFS is an artificial satellite, a human‑made object that has been placed into Earth orbit and is recorded under the identifier 23009. ### Q: How is DFH‑3 MFS identified in knowledge bases? A: It is indexed in Wikidata with the description “23009” and in the Wolfram Language with the entity code `Entity["Satellite", "23009"]`. ### Q: What class of objects does DFH‑3 MFS belong to? A: It belongs to the “artificial satellite” class, which encompasses all human‑constructed objects launched into orbit. ### Q: Where can I find more information about DFH‑3 MFS? A: Additional details can be accessed through its Wikidata entry (ID 23009) and the Wolfram Language entity page for satellites. ### Q: Is DFH‑3 MFS a natural celestial body? A: No. By definition, DFH‑3 MFS is an artificial satellite, meaning it was engineered and launched by humans rather than occurring naturally. ## Why It Matters Cataloguing artificial satellites like DFH‑3 MFS is essential for maintaining an accurate global inventory of space assets. Such records support collision avoidance, orbital debris tracking, and the coordination of international space activities. By being indexed in widely used knowledge platforms (Wikidata and Wolfram Language), DFH‑3 MFS becomes discoverable to researchers, engineers, and policy makers who rely on structured data to assess the status and distribution of orbital objects. This transparency aids in space situational awareness, informs regulatory frameworks, and underpins scientific studies of satellite populations and their long‑term evolution. ## Notable For - **Unique Identifier:** The numeric code “23009” uniquely distinguishes DFH‑3 MFS in global satellite registries. - **Cross‑Platform Presence:** Listed both in Wikidata and the Wolfram Language, facilitating interdisciplinary data access. - **Clear Classification:** Explicitly categorized as an artificial satellite, removing ambiguity about its nature. ## Body ### Classification and Definition - DFH‑3 MFS is defined as an **artificial satellite**, a term that covers any human‑manufactured object placed into orbit around Earth or another celestial body. - The artificial‑satellite class is widely used in aerospace databases to group objects such as communications platforms, scientific probes, and navigation systems. ### Identifier Systems - **Wikidata:** The satellite appears under the description “23009,” serving as a stable reference for linked open data applications. - **Wolfram Language:** It is represented by the entity code `Entity["Satellite", "23009"]`, enabling programmatic queries and integration into computational workflows. ### Data Connectivity - The satellite’s entry is linked to **142 sitelinks**, indicating its presence across multiple web resources that reference the artificial‑satellite class. - These links help aggregate information from mission reports, tracking services, and academic publications, even though specific mission details for DFH‑3 MFS are not provided in the source material. ### Relevance to Space Operations - Maintaining an up‑to‑date registry of satellites like DFH‑3 MFS supports **space situational awareness (SSA)**, a critical capability for preventing collisions and managing orbital traffic. - Accurate identifiers enable automated systems to cross‑reference tracking data, predict conjunction events, and coordinate with international partners. ### Limitations of Available Information - The provided source material supplies only the classification and identifier; technical specifications (e.g., launch date, mass, orbit parameters) are not available. - Researchers seeking deeper technical insight must consult mission‑specific databases or official launch records that reference the “23009” identifier.