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Country or territory where the image was reported

Reported Location (22)

Donetsk
Year the image is reported to have been taken

Year (18)

Classification groups of key explosive munitions used in conflicts

Munition Category (6)

The impact or effect the munition is intended to have

Functional use (8)

The specific model of munition pictured

Tentative Model (183)

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The external organisation that documented the munition

Research Organisation (5)

Colour of the munition pictured

Base Colour (10)

Colour of all, or some, of the markings on the munition

Marking Colour (9)

Language or script of the marking on a munition

Marking Script (9)

Condition of the munition pictured

Condition (6)

Key features defining the operation mechanisms of a projectile

Mechanical Feature (9)

Whether a munition is guided or unguided

Guidance (2)

Where the munition is launched from and what it targets

Domain (5)

The type of fins visible on the munition

Fins Characteristic (5)

The nominal diameter of a projectile. For most modern munitions, this is expressed in millimetres (e.g. 82 mm mortar projectile), but older artillery gun projectiles may be described in inches.

Calibre (52)

Weight class of the aerial bomb pictured

Weight Class (12)

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77 results
OSMP995
Rocket or Missile Ukraine 9M22S Grad
Analyst Note:
This image shows a 9M22S rocket with some of its unfunctioned payload of 180 ML-5 incendiary elements. Each ML-5 is a hexagonal prism formed from a hollow shell of magnesium that is filled with an incendiary composition. These elements are ignited by the ejection charge of the rocket’s warhead upon functioning. Two fuzes are also visible at the bottom of the image, immediately above and below the ruler. (ARES)
OSMP436
Rocket or Missile Ukraine 9M27 Uragan series
Analyst Note:
Almost all cluster munitions, including this example, expel their submunitions during flight. The submunitions are often held in an internal frame, such as that visible here, prior to being expelled. Depending on the munition, these internal frames may be diagnostic for identification. They usually do not carry a significant explosive payload in their own right, and therefore often withstand the functioning of the munition relatively intact. (ARES)
OSMP439
Artillery Gun Projectile Ukraine
Analyst Note:
The large fragments in this image are typical of 'natural' fragmentation resulting from the rupturing of a thick-walled munition (in this case, an artillery projectile) by the functioning of its explosive payload. (ARES)