# BeeSat-1

> German satellite

**Wikidata**: [Q813973](https://www.wikidata.org/wiki/Q813973)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/BeeSat-1)  
**Source**: https://4ort.xyz/entity/beesat-1

## Summary
BeeSat-1 is a German CubeSat developed by Technische Universität Berlin, launched on September 23, 2009, as a technology demonstration spacecraft. It was deployed from the Polar Satellite Launch Vehicle (PSLV) and serves as a miniaturized satellite designed to test experimental technologies in space.

## Key Facts
- **Type**: Technology demonstration spacecraft and CubeSat
- **Operator**: Technische Universität Berlin
- **Launch Date**: September 23, 2009
- **Launch Vehicle**: Polar Satellite Launch Vehicle (PSLV)
- **Launch Site**: Satish Dhawan Space Centre First Launch Pad
- **COSPAR ID**: 2009-051C
- **Dimensions**: Miniaturized satellite made up of 10cm-sided cubic modules
- **Significant Event**: Rocket launch on September 23, 2009, from the Satish Dhawan Space Centre First Launch Pad

## FAQs
### Q: What was the purpose of BeeSat-1?
A: BeeSat-1 was a technology demonstration spacecraft designed to test experimental technologies in space, operating as a miniaturized CubeSat.

### Q: Who operated BeeSat-1?
A: BeeSat-1 was operated by Technische Universität Berlin, a German university.

### Q: How was BeeSat-1 launched?
A: BeeSat-1 was launched on September 23, 2009, aboard the Polar Satellite Launch Vehicle (PSLV) from the Satish Dhawan Space Centre First Launch Pad.

### Q: What type of satellite was BeeSat-1?
A: BeeSat-1 was a CubeSat, a miniaturized satellite made up of 10cm-sided cubic modules.

### Q: What was BeeSat-1's COSPAR ID?
A: BeeSat-1's COSPAR ID was 2009-051C.

## Why It Matters
BeeSat-1 played a crucial role in advancing space technology by serving as a platform for experimental demonstrations in a compact satellite format. As a CubeSat, it contributed to the growing field of miniaturized satellites, which are cost-effective and efficient for testing new technologies. Its successful deployment and operation provided valuable data for future space missions, particularly in the realm of technology demonstration. The satellite's development and launch also highlighted the collaborative efforts between German institutions and international space agencies, such as the Indian Space Research Organisation (ISRO), which provided the launch vehicle.

## Notable For
- **First of its kind**: One of the earliest CubeSats to demonstrate experimental technologies in space.
- **Compact design**: Utilized a miniaturized 10cm-sided cubic module, a hallmark of CubeSat technology.
- **International collaboration**: Launched via the Polar Satellite Launch Vehicle (PSLV), a joint effort between German and Indian space agencies.
- **Educational significance**: Developed by Technische Universität Berlin, it served as a practical training ground for students in satellite engineering.
- **Technological innovation**: Provided a platform for testing new space technologies in a low-cost, efficient format.

## Body
### Overview
BeeSat-1 was a German satellite developed by Technische Universität Berlin, designed to serve as a technology demonstration spacecraft. It was launched on September 23, 2009, aboard the Polar Satellite Launch Vehicle (PSLV) from the Satish Dhawan Space Centre First Launch Pad.

### Classification
BeeSat-1 is classified as both a **technology demonstration spacecraft** and a **CubeSat**. As a CubeSat, it was a miniaturized satellite made up of 10cm-sided cubic modules, a design that allowed for cost-effective and efficient space missions.

### Launch Details
- **Launch Date**: September 23, 2009
- **Launch Vehicle**: Polar Satellite Launch Vehicle (PSLV)
- **Launch Site**: Satish Dhawan Space Centre First Launch Pad
- **COSPAR ID**: 2009-051C

### Operator
BeeSat-1 was operated by **Technische Universität Berlin**, a leading German university in the field of space technology.

### Significance
BeeSat-1 contributed to the advancement of space technology by providing a platform for experimental demonstrations in a compact satellite format. Its successful deployment and operation provided valuable data for future space missions, particularly in the realm of technology demonstration. The satellite's development and launch also highlighted the collaborative efforts between German institutions and international space agencies.

## References

1. Jonathan's Space Report