# RBLE > Radiation belt loss experiment microsatellite **Wikidata**: [Q106473302](https://www.wikidata.org/wiki/Q106473302) **Source**: https://4ort.xyz/entity/rble ## Summary RBLE (Radiation Belt Loss Experiment) is a NASA CubeSat microsatellite, also known as DELLINGR, designed to study radiation belt loss phenomena in Earth's magnetosphere. It was launched on August 14, 2017, aboard a SpaceX Falcon 9 Full Thrust rocket from Kennedy Space Center Launch Complex 39A as part of the ELaNa-22 program. ## Key Facts - RBLE is a NASA CubeSat microsatellite designed to study radiation belt loss phenomena - It is also known by its alias DELLINGR - It was launched on August 14, 2017 - It was launched aboard a SpaceX Falcon 9 Full Thrust rocket - The launch occurred from Kennedy Space Center Launch Complex 39A - It is part of the ELaNa-22 program (Educational Launch of Nanosatellites) - The satellite has dimensions of 20cm width, 10cm height, and 30cm length - Its COSPAR ID is 1998-067NJ - It was named after Dellingr ## FAQs ### Q: What is RBLE's purpose? A: RBLE (Radiation Belt Loss Experiment) is a microsatellite designed to study radiation belt loss phenomena in Earth's magnetosphere. It helps scientists understand how particles are lost from the Van Allen radiation belts. ### Q: When and how was RBLE launched? A: RBLE was launched on August 14, 2017, aboard a SpaceX Falcon 9 Full Thrust rocket from Kennedy Space Center Launch Complex 39A. It reached the International Space Station on November 20, 2017, where it was later deployed into orbit. ### Q: What are RBLE's technical specifications? A: RBLE is a CubeSat with dimensions of 20cm width, 10cm height, and 30cm length. It was developed and operated by NASA and has the COSPAR ID 1998-067NJ. ### Q: What is the significance of RBLE in space research? A: RBLE contributes to understanding the complex dynamics of Earth's radiation belts, which is crucial for space weather prediction and protecting satellites and astronauts from harmful radiation environments in space. ## Why It Matters RBLE represents NASA's commitment to advancing space science through innovative, cost-effective satellite missions. By studying radiation belt loss phenomena, this microsatellite addresses fundamental questions about how Earth's magnetosphere manages charged particles. These particles are trapped in the Van Allen radiation belts and pose significant risks to satellites and astronauts in space. Understanding the loss mechanisms helps scientists improve space weather prediction models, which is increasingly important as our society becomes more dependent on satellite technology for communications, navigation, and Earth observation. As part of the ELaNa-22 program, RBLE also serves as an educational platform, demonstrating the capabilities of CubeSats for scientific research. ## Notable For - Specialized mission to study radiation belt loss phenomena, addressing fundamental space physics questions - CubeSat architecture demonstrating the scientific value of small, low-cost satellites - Part of NASA's ELaNa-22 educational launch program alongside other nanosatellites - Named after Dellingr, a figure from Norse mythology known as "the opener of the path to heaven" ## Body ### Overview RBLE, or Radiation Belt Loss Experiment, is a NASA microsatellite designed to study radiation belt loss phenomena in Earth's magnetosphere. The satellite is also known by its alias DELLINGR, named after Dellingr from Norse mythology. It is classified as a CubeSat, which is a miniaturized satellite made up of 10cm-sided cubic modules. ### Technical Specifications RBLE has the following physical dimensions: - Width: 20 centimeters - Height: 10 centimeters - Length: 30 centimeters The satellite carries the COSPAR ID 1998-067NJ and is operated by the National Aeronautics and Space Administration (NASA). ### Launch and Deployment RBLE was launched on August 14, 2017, aboard a SpaceX Falcon 9 Full Thrust rocket from Kennedy Space Center Launch Complex 39A. As part of the ELaNa-22 (Educational Launch of Nanosatellites) program, it reached the International Space Station on November 20, 2017, where it was later deployed into orbit. ### Mission Purpose The primary mission of RBLE is to study radiation belt loss phenomena. This research helps scientists understand how particles are lost from the Van Allen radiation belts that surround Earth, which is crucial for space weather prediction and protecting satellites and astronauts from harmful radiation environments. ## References 1. Jonathan's Space Report 2. [Source](https://space.skyrocket.de/doc_sdat/dellingr.htm)