# EXALTA-1 > 42734 **Wikidata**: [Q111471240](https://www.wikidata.org/wiki/Q111471240) **Source**: https://4ort.xyz/entity/exalta-1 ## Summary EXALTA-1 is an artificial satellite, identified in knowledge bases by the entity code 42734. As a human-made object placed into orbit, it belongs to the class of spacecraft designed for tasks such as communication, navigation, scientific research, or military applications. ## Key Facts - **Classification**: Instance of an **artificial satellite** (human-made object orbiting a celestial body). - **Entity Code**: Wolfram Language entity code `Entity["Satellite", "42734"]`. - **Wikidata ID**: Associated with the identifier **42734**. - **Category**: Subclass of **spacecraft**, engineered specifically to operate in orbit. - **Operational Context**: Functions within the broader ecosystem of orbital infrastructure that includes geostationary and low Earth orbit (LEO) objects. ## FAQs ### Q: What specific type of spacecraft is EXALTA-1? A: EXALTA-1 is classified as an artificial satellite, which is a specific type of spacecraft designed to orbit a celestial body like Earth rather than just travel through space. ### Q: How does EXALTA-1 relate to other space objects? A: It falls under the "artificial satellite" class, distinguishing it from natural satellites (like moons) and other spacecraft like probes or crewed vehicles that are not designed for sustained orbit. ### Q: What is the significance of the identifier 42734? A: The number 42734 serves as the raw description and Wolfram Language entity code for EXALTA-1, acting as a unique machine-readable identifier for the object in structured databases. ### Q: What are the general capabilities of an artificial satellite like EXALTA-1? A: Objects in this class are typically used for communication, navigation, weather monitoring, scientific observation, or military surveillance, maintaining orbit through a balance of gravity and velocity. ## Why It Matters EXALTA-1 represents a node in the critical infrastructure of artificial satellites that underpin modern civilization. As an instance of the artificial satellite class, it is part of the technology backbone that enables global positioning systems (GPS), real-time weather monitoring, and internet connectivity. The deployment of such satellites revolutionized how humanity communicates and navigates, extending capabilities from geodetic research to military defense. While individual mission details are sparse in the provided data, its existence as an artificial satellite places it within the legacy of the Space Age, which began with Sputnik 1 in 1957 and continues to address challenges like orbital congestion and space debris. ## Notable For - **Classification**: Being a distinct instance of an artificial satellite (Entity Code 42734). - **Lineage**: Belonging to the spacecraft category pioneered by Sputnik 1. - **Ecosystem Role**: Functioning as part of the orbital network essential for scientific and communication advancements. ## Body ### Definition and Classification EXALTA-1 is defined as an **artificial satellite**, a human-made object placed into orbit around a celestial body. Structurally, it is a subclass of **spacecraft**, specifically engineered to operate in the space environment. In structured data systems, it is identified by the Wolfram Language code `Entity["Satellite", "42734"]` and the Wikidata-related identifier **42734**. ### The Artificial Satellite Class As an instance of this class, EXALTA-1 shares the defining characteristics of artificial satellites: - **Function**: Designed to perform tasks such as communication, navigation, scientific research, or military surveillance. - **Orbital Mechanics**: Like all satellites, such objects remain in orbit by balancing gravitational pull with forward velocity (centrifugal force). - **Variants**: The class includes passive satellites (e.g., Project Echo), tethered satellites, and miniaturized variants like femtosatellites and picosatellites. ### Historical and Technological Context The category of artificial satellites to which EXALTA-1 belongs was established in **1957** with the launch of **Sputnik 1** by the Soviet Union. This event marked the beginning of the space age. Subsequent developments in this field include: - **Orbital Power Plants**: Specialized satellites designed to capture solar energy. - **Debris Management**: The development of space debris removal satellites to address orbital clutter. - **Military Applications**: Usage in secure communications, as seen in constellations like Syracuse 4 (French) and Gonets-M (Russian). ### Operational Environment EXALTA-1 operates within a domain that includes various orbital types: - **Geostationary**: Remaining fixed over a specific point on Earth. - **Low Earth Orbit (LEO)**: Commonly used for communication and Earth observation. - **Heliocentric**: Orbits around the Sun. ### Challenges and Sustainability The operation of satellites like EXALTA-1 is increasingly complicated by **space debris** and **orbital congestion**. Thousands of defunct satellites and fragments pose collision risks, necessitating the development of sustainability solutions such as active debris removal technologies.