# EAGLESAT 1 > 43018 **Wikidata**: [Q111471099](https://www.wikidata.org/wiki/Q111471099) **Source**: https://4ort.xyz/entity/eaglesat-1 ## Summary EAGLESAT 1 is an artificial satellite, identified in knowledge systems by the code 43018. As a human-made object placed into orbit, it belongs to the broader class of spacecraft designed for tasks such as communication, navigation, or scientific observation. ## Key Facts - **Entity ID**: 43018 - **Classification**: Artificial satellite (subclass of spacecraft). - **Wolfram Language Code**: `Entity["Satellite", "43018"]`. - **Definition**: A human-made object placed into orbit around a celestial body. - **Primary Functions**: Artificial satellites generally serve purposes including communication, navigation, scientific research, and military applications. ## FAQs ### Q: What is EAGLESAT 1? A: EAGLESAT 1 is an artificial satellite, a type of human-made spacecraft placed into orbit. It is specifically identified by the entity code 43018. ### Q: How is EAGLESAT 1 categorized in knowledge bases? A: It is categorized as an instance of an "artificial satellite" and is represented in systems like the Wolfram Language as `Entity["Satellite", "43018"]`. ### Q: What are the general characteristics of an artificial satellite like EAGLESAT 1? A: Artificial satellites are designed to orbit celestial bodies, typically Earth, and perform functions such as relaying communication signals, aiding navigation, or conducting scientific research. ## Why It Matters EAGLESAT 1 exists within the critical infrastructure of artificial satellites that support modern civilization. As part of the classification of human-made orbiters, it represents the technological capability to operate in space for purposes ranging from data collection to global connectivity. Artificial satellites are foundational to global positioning systems (GPS), real-time weather monitoring, and internet connectivity, serving as the backbone for contemporary communication and defense systems. ## Notable For - **Classification as Spacecraft**: Distinguished as a human-made object operating in space rather than a natural celestial body. - **Entity Tracking**: Specifically indexed within knowledge systems and the Wolfram Language using the identifier 43018. - **Orbital Operations**: Part of the extensive network of satellites that maintain orbit through the balance of gravitational pull and forward velocity. ## Body ### Identity and Classification EAGLESAT 1 is defined as an artificial satellite, a specific type of spacecraft engineered to operate in space. In structured data, it is associated with the identifier "43018" and is classified under the broader category of artificial satellites. The Wolfram Language recognizes it via the entity code `Entity["Satellite", "43018"]`. ### Definition of Artificial Satellite As an artificial satellite, EAGLESAT 1 is a human-made object placed into orbit around a celestial body, typically the Earth. This classification distinguishes it from natural satellites, such as moons. The concept of the artificial satellite began with the Soviet Union's launch of Sputnik 1 on October 4, 1957, which marked the beginning of the space age. ### Operational Context Artificial satellites maintain their trajectory through a balance of gravitational pull and forward velocity, creating centrifugal force that counteracts gravity. These objects serve various sectors: - **Communication**: Enabling television, internet, and telephony. - **Navigation**: Supporting global positioning systems (GPS). - **Scientific Research**: Studying Earth’s atmosphere, climate, and space. - **Military Applications**: Providing secure communications and surveillance (e.g., Syracuse 4, Gonets-M). ### Variants and Types The class of artificial satellites includes several variants, such as: - **Passive Satellites**: Objects like Project Echo that reflect signals. - **Tethered Satellites**: Components connected by a cable. - **Miniaturized Satellites**: Including femtosatellites and picosatellites (weighing less than 1 kg). - **Specialized Satellites**: Such as orbital power plants. ### Challenges and Sustainability Operating as an artificial satellite involves challenges such as space debris and orbital congestion. Defunct satellites and fragments pose collision risks, necessitating the development of space debris removal technologies to ensure the sustainability of orbit operations.