# ORBICRAFT-ZORKIY
**Wikidata**: [Q110406015](https://www.wikidata.org/wiki/Q110406015)  
**Source**: https://4ort.xyz/entity/orbicraft-zorkiy

## Summary
ORBICRAFT-ZORKIY is a CubeSat Earth observation satellite, part of a miniaturized satellite system made up of 10cm-sided cubic modules. Launched on March 22, 2021, from the Baikonur Cosmodrome aboard a Soyuz-2.1a rocket, it weighs 8.5 kilograms and carries the COSPAR ID 2021-022AE.

## Key Facts
- **Class**: CubeSat (miniaturized satellite with 10cm-sided cubic modules)
- **Purpose**: Earth observation satellite
- **Mass**: 8.5 kilograms
- **COSPAR ID**: 2021-022AE
- **Launch Date**: March 22, 2021
- **Launch Site**: Baikonur Cosmodrome
- **Launch Vehicle**: Soyuz-2.1a
- **Wikipedia Availability**: Only available in Russian (ru)

## FAQs
### Q: What type of satellite is ORBICRAFT-ZORKIY?
A: ORBICRAFT-ZORKIY is a CubeSat Earth observation satellite, designed for monitoring Earth from orbit.

### Q: When and where was ORBICRAFT-ZORKIY launched?
A: It was launched on March 22, 2021, from the Baikonur Cosmodrome using a Soyuz-2.1a rocket.

### Q: What is the mass of ORBICRAFT-ZORKIY?
A: The satellite has a mass of 8.5 kilograms.

### Q: What is its COSPAR ID?
A: Its COSPAR ID is 2021-022AE.

### Q: Is ORBICRAFT-ZORKIY available on Wikipedia?
A: Yes, but only in Russian (ru).

## Why It Matters
ORBICRAFT-ZORKIY contributes to the growing field of CubeSat technology, which enables cost-effective Earth observation missions. As a miniaturized satellite, it demonstrates the feasibility of using compact, modular spacecraft for scientific and operational purposes. Its successful deployment and operation highlight advancements in satellite miniaturization, making space-based observations more accessible. The satellite’s role in Earth monitoring supports environmental research, disaster response, and other applications that benefit from orbital data collection.

## Notable For
- **Miniaturization**: One of the first CubeSat Earth observation satellites, showcasing the potential of small-scale spacecraft.
- **COSPAR ID**: Uniquely identified as 2021-022AE, reflecting its launch in 2021.
- **Russian Launch**: Launched from the Baikonur Cosmodrome, a key site for Russian space missions.
- **Soyuz-2.1a Deployment**: Successfully deployed using the Soyuz-2.1a rocket, a reliable launch vehicle for small satellites.
- **Limited Wikipedia Presence**: Only available in Russian, indicating its primary operational or developmental context in that region.

## Body
### Classification
ORBICRAFT-ZORKIY is classified as both a **CubeSat** and an **Earth observation satellite**. CubeSats are a category of miniaturized satellites, typically composed of 10cm-sided cubic modules, designed for low-cost space missions. Earth observation satellites are specifically engineered to monitor and collect data about Earth from orbit.

### Technical Specifications
- **Mass**: 8.5 kilograms, making it a lightweight satellite suitable for CubeSat standards.
- **COSPAR ID**: 2021-022AE, assigned by the Committee on Space Research (COSPAR) to track space objects.
- **Launch Details**: Launched on **March 22, 2021**, from the **Baikonur Cosmodrome**, a historic spaceport in Kazakhstan.
- **Launch Vehicle**: Utilized the **Soyuz-2.1a**, a version of the Soyuz rocket known for its reliability in deploying small satellites.

### Operational Context
- **Wikipedia Availability**: Only available in Russian (ru), suggesting its primary operational or developmental focus may be within Russian space programs.
- **Sitelink Count**: Has a low sitelink count (1), indicating limited external references or public interest compared to larger satellites.

### Significance
ORBICRAFT-ZORKIY represents a step forward in **CubeSat Earth observation**, proving that compact satellites can perform meaningful scientific and operational tasks. Its successful deployment underscores the growing role of miniaturized spacecraft in space exploration and Earth monitoring. The satellite’s lightweight design and modular structure align with broader trends in space technology, making it a notable example of innovation in the field.

## References

1. Jonathan's Space Report