# CYGFM06 > 41889 **Wikidata**: [Q111471326](https://www.wikidata.org/wiki/Q111471326) **Source**: https://4ort.xyz/entity/cygfm06 ## Summary CYGFM06 is an artificial satellite identified by the code 41889 in structured data systems, representing a specific catalogued entity within satellite databases. It is classified as a human-made object placed into orbit for defined operational purposes. As a member of the broader category of artificial satellites, CYGFM06 is part of the technological infrastructure enabling space-based functions like communication, observation, or research. ## Key Facts - **Entity Identifier**: CYGFM06 is uniquely identified as 41889 in structured knowledge systems. - **Classification**: Instance of an artificial satellite. - **Definition**: A human-made object placed into orbit around a celestial body. - **Relation to Spacecraft**: CYGFM06 is a subclass of spacecraft engineered for orbital operation. - **Data Source**: Wikidata description ID 41889 is associated with it. - **Structured Data Code**: Wolfram Language Entity Code: Entity["Satellite", "41889"]. - **Orbital Purpose**: Functions may include communication, scientific research, or Earth observation, consistent with artificial satellite use cases. ## FAQs ### What is CYGFM06? CYGFM06 is an artificial satellite identified in structured data systems by the descriptor 41889. It is part of the broader class of human-made orbital objects used for specialized functions such as communication, research, or Earth monitoring. ### Is CYGFM06 a real satellite? Yes, CYGFM06 is a recognized entity within satellite databases and structured knowledge systems, identified by the descriptor 41889, and is classified as an artificial satellite. ### What is the function of CYGFM06? As an artificial satellite, CYGFM06 serves functions typical of its class, such as communication, navigation, or scientific data collection, depending on its operational design and deployment. ### How is CYGFM06 identified in data systems? CYGFM06 is identified by the descriptor 41889 in knowledge systems like Wikidata and is associated with the Wolfram Language Entity Code: Entity["Satellite", "41889"]. ### What systems classify CYGFM06? CYGFM06 is classified as an artificial satellite, a subclass of spacecraft, and is part of structured data systems that track and define orbital objects. ## Why It Matters CYGFM06, as an identified artificial satellite, plays a role in the broader ecosystem of space-based infrastructure. Its classification under descriptor 41889 allows for standardized referencing in data systems, enabling interoperability across scientific and technical platforms. This is crucial for tracking, monitoring, and coordinating satellite operations. As part of the global network of artificial satellites, CYGFM06 contributes to advancements in communication, Earth observation, or scientific research, depending on its deployment. Its structured identification supports data integration in orbital databases and space monitoring systems. ## Notable For - Being a uniquely catalogued artificial satellite under descriptor 41889. - Its classification as part of the artificial satellite class, which supports global communication and research. - Integration into structured data systems like Wikidata and Wolfram Language. - Representing the technological and scientific utility of orbital objects. - Being traceable through standardized identifiers, enabling accurate data correlation. ## Body ### Definition and Classification CYGFM06 is an artificial satellite, a class of human-made objects placed into orbit for specialized functions. As an instance of this class, it is designed to operate in space for purposes such as communication, Earth observation, or scientific research. It is classified under the descriptor 41889 in structured data systems, aligning it with standardized identification protocols used in space monitoring and data integration platforms. ### Data System Integration CYGFM06 is integrated into knowledge systems such as Wikidata and Wolfram Language, where it is uniquely identified as: - **Wikidata ID**: 41889 - **Wolfram Language Entity Code**: Entity["Satellite", "41889"] This identification enables precise cataloguing and data correlation in orbital and aerospace databases. ### Functional Role As an artificial satellite, CYGFM06 is part of a global network of orbital objects that support: - Communication systems - Scientific research - Earth monitoring - Navigation infrastructure Its operational role aligns with the broader impact of artificial satellites, which have transformed global connectivity and space-based research. ### Relation to Artificial Satellite Class CYGFM06 is a subclass of spacecraft, specifically engineered for orbital functions. It shares the classification of artificial satellites, which were first pioneered by Sputnik 1 in 1957. This class has since evolved to include specialized variants such as: - Passive satellites - Tethered satellites - Miniaturized satellites (e.g., femtosatellites) - Geostationary and low Earth orbit satellites ### Structured Data Context CYGFM06 is part of structured data systems that enable precise identification and categorization: - **Descriptor ID**: 4188atter. - **Data Link**: It is linked to Wikidata and Wolfram Language, which are used for scientific and technical data interoperability. ### Broader Impact CYGFM06 contributes to the global satellite ecosystem that supports: - Real-time communication - Environmental monitoring - Military and scientific operations - Space debris management and orbital sustainability Its role underscores the importance of standardized data identification for tracking and managing orbital assets. ### Challenges in Satellite Operations Like other artificial satellites, CYGFM06 operates within a domain facing: - Orbital congestion - Space debris risks - Data integration complexities These challenges are managed through: - Space debris removal satellites - Accurate cataloguing via identifiers like 41889 - Continuous monitoring and data correlation CYGFM06, as descriptor 41889, is part of the structured technological framework that supports modern orbital operations and scientific advancements.