# Cosmos 1536
**Wikidata**: [Q13566651](https://www.wikidata.org/wiki/Q13566651)  
**Source**: https://4ort.xyz/entity/cosmos-1536

## Summary
Cosmos 1536 is a Soviet signals intelligence satellite of the Tselina-D class, launched on February 8, 1984, from the Plesetsk Cosmodrome using a Tsyklon-3 rocket. It is identified by its COSPAR ID 1984-013A and is part of the Soviet Union's reconnaissance satellite program.

## Key Facts
- **Class**: Tselina-D, a Soviet signals intelligence satellite.
- **Launch Date**: February 8, 1984.
- **Launch Vehicle**: Tsyklon-3, a Soviet/Ukrainian expendable launch vehicle.
- **Launch Site**: Plesetsk Cosmodrome Site 32.
- **COSPAR ID**: 1984-013A.
- **Significant Event**: Rocket launch at 09:23:00 UTC on February 8, 1984.
- **Wikipedia Availability**: Available in Macedonian (mk), Serbo-Croatian (sh), and Serbian (sr).
- **Wolfram Language Entity Code**: Entity["Satellite", "14699"].

## FAQs
### Q: What type of satellite was Cosmos 1536?
A: Cosmos 1536 was a Tselina-D class satellite, designed for signals intelligence (SIGINT) operations.

### Q: When and where was Cosmos 1536 launched?
A: It was launched on February 8, 1984, from Plesetsk Cosmodrome Site 32 using a Tsyklon-3 rocket.

### Q: What is the COSPAR ID of Cosmos 1536?
A: Its COSPAR ID is 1984-013A, assigned by the Committee on Space Research.

### Q: What launch vehicle was used for Cosmos 1536?
A: The satellite was launched by a Tsyklon-3, a Soviet/Ukrainian expendable launch vehicle.

### Q: Is Cosmos 1536 available on Wikipedia?
A: Yes, it has Wikipedia entries in Macedonian, Serbo-Croatian, and Serbian.

## Why It Matters
Cosmos 1536 was part of the Soviet Union's extensive network of Tselina-D satellites, which played a critical role in the country's signals intelligence operations. These satellites were designed to intercept and analyze foreign communications, contributing to the Soviet Union's military and intelligence capabilities. The launch of Cosmos 1536, along with others in its class, highlights the Soviet Union's advanced space-based reconnaissance efforts during the Cold War. While details about its specific mission are classified, its inclusion in the Tselina-D series underscores the Soviet Union's commitment to maintaining a sophisticated SIGINT infrastructure in space.

## Notable For
- **Tselina-D Classification**: One of the Soviet Union's most advanced SIGINT satellites.
- **Tsyklon-3 Launch**: Successfully deployed using a reliable Soviet-era rocket.
- **Cold War Intelligence**: Part of a broader network of satellites supporting Soviet military intelligence.
- **COSPAR Recognition**: Officially cataloged as 1984-013A by the Committee on Space Research.
- **Multilingual Documentation**: Available in multiple languages, reflecting its broader operational significance.

## Body
### Classification and Mission
Cosmos 1536 is classified as a Tselina-D satellite, a series of Soviet signals intelligence spacecraft designed to intercept and analyze foreign communications. The Tselina-D class was part of the Soviet Union's broader reconnaissance satellite program, which played a crucial role in military intelligence gathering during the Cold War.

### Launch Details
The satellite was launched on **February 8, 1984**, at **09:23:00 UTC** from **Plesetsk Cosmodrome Site 32**. The launch vehicle used was the **Tsyklon-3**, a Soviet/Ukrainian expendable rocket known for its reliability in deploying intelligence satellites.

### Identification and Tracking
Cosmos 1536 is officially identified by its **COSPAR ID (1984-013A)**, which is assigned by the Committee on Space Research to track and catalog space objects. This ID helps in distinguishing it from other satellites in the Tselina-D series.

### Wikipedia Availability
The satellite has Wikipedia entries in **Macedonian (mk), Serbo-Croatian (sh), and Serbian (sr)**, indicating its significance in those regions' space documentation.

### Wolfram Language Entity Code
Cosmos 1536 is referenced in Wolfram Language as **Entity["Satellite", "14699"]**, which provides additional computational and analytical context for the satellite's characteristics and operations.

## References

1. Jonathan's Space Report