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Country or territory where the image was reported

Reported Location (30)

Year the image is reported to have been taken

Year (19)

2024
Classification groups of key explosive munitions used in conflicts

Munition Category (8)

Two closely related types of powered munitions
Rocket or Missile
The impact or effect the munition is intended to have

Functional use (9)

Rely on the rapid expansion of gases released by a detonating high explosive compound inside the munition to generate explosive power
Blast Munition
The specific model of munition pictured

Tentative Model (223)

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The external organisation that documented the munition

Research Organisation (5)

Colour of the munition pictured

Base Colour (11)

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 (61)

Weight class of the aerial bomb pictured

Weight Class (14)

106 results

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Blast Munition
Use the rapid expansion of gases released by a detonating high explosive compound inside the munition to generate explosive power. Blast munitions are often considered general-purpose munitions and large examples can have powerful and widespread effects on targets such as structures and personnel.

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Rocket or Missile
Rockets and missiles are two closely related types of powered munitions which utilise an internal propulsion method, typically a rocket motor, to maintain their rate of travel after launch. Rockets and missiles are typically relatively long and thin—with lengths ranging from 50 centimetres to 6.5 metres. Rockets are unguided those fitted with guidance systems are usually referred to as missiles. Missiles sometimes use propulsion methods other than rocket motors, such as turbojets. The effective range of rockets varies from as little as one kilometre to more than 40 kilometres, while missiles typically have a longer range — some more than 250 kilometres.
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OSMP1401
Analyst Note:
The munition in this image has been integrated into a commercial off-the-shelf (COTS) small UAV. This UAV (‘drone’) adds powered and guided delivery and converts the munition into a guided missile—regardless of the original, intended delivery method. (ARES)
OSMP832
Analyst Note:
This image shows the rear fin section that is attached to a M-302/Khaibar-1/Fadi series rockets to add guidance capabilities. This rear fin section is installed, along with a forward control section between the warhead and the rocket motor. The guided munition, now classified as a missile, is referred to as a Nasr-1/Nasr-2. A similar, but larger, rear fin section is fitted to Zelzal rockets to convert them to guided munitions. (ARES).
OSMP805
Analyst Note:
This image shows the rocket motor of a Kheibar Shekan or Fattah-1 medium-range ballistic missile (MRBM). The Fattah-1 was publicly unveiled by Iran in June 2023, with very few images surfacing since that time. Due to the lack of available reference material, differentially identifying the Kheibar Shekan and Fattah-1 is difficult. The missile components displayed at unveilings and public displays are also often different from those used in production models. (ARES).
OSMP875
Analyst Note:
This image shows a remnant of the aft motor section, which includes the venturi nozzle, of a North Korean KN-23/KN-24/Hwasong-11 series missile. The KN-23/KN-24/Hwasong-11 has a generally similar appearance to the Russian 9M7 ‘Iskander’ series of ballistic missiles, but has differences in performance and in some aspects of the construction. (ARES)
OSMP1023
Analyst Note:
This image shows an Israeli Air Force F-16 carrying four Rampage air-to-ground missiles. The Rampage is a 580 kg (1,278 lb) missile with GPS and INS guidance. It carries a multi-purpose warhead that is designed for engaging a range of targets in the open as well as offering some degree of penetration. (ARES)
OSMP893
2 Analyst Notes:
This image shows one of several possible warhead variants that can be carried by the Shahed-136/Geran-2 one-way attack (OWA) UAV. The Shahed-136/Geran-2 (and the smaller Shahed-131/Geran-1) has been documented carrying shaped-charge warheads, penetrator warheads, and multi-function warheads. Due to the various warheads that can be carried by a Shahed/Geran drone, the functional use cannot be determined without the warhead being visible. In this case, the munition was fitted with a TBBCh-50M warhead that contains a thermobaric explosive composition with an additional fragmentation effect. (ARES)
OSMP917
Analyst Note:
Whilst there are no visible markings explicitly identifying the model of the 122 mm rockets in this image, they are sitting atop a box marked “R-122” and exhibit physical features consistent with North Korean R-122 rockets. It should be noted that rockets marked with the generic “R-122” model name have been observed in both ‘long’ and ‘short’ overall lengths and painted in different colours. (ARES)
OSMP984
Analyst Note:
This image shows part of the warhead section of an MGM-140 Army Tactical Missile System (ATACMS) series tactical ballistic missile. This is the top of the warhead section, where it connects to the guidance section. A data plate is visible, giving information about the manufacturer (“Lockheed Martin Vought Systems”) and identifying this specific part (“WARHEAD, GUIDED MISSILE. HIGH EXPLOSIVE”. (ARES)
OSMP958
Analyst Note:
This image shows part of a heavy-duty suspension lug associated with the Storm Shadow air-launched cruise missile. This is made clear from dot-peened markings which include “STORM SHADOW USE ONLY” and identifiers such as a NATO Stock Number (NSN). (ARES)
OSMP957
Analyst Note:
The munitions remnant on the left of this image is part of a suspension lug associated with the Storm Shadow air-launched cruise missile, which is used to attach the munition to an aircraft. This component is of heavy construction, and as such often survives the missile’s functioning intact. This photograph purports to show remnants recovered from a Storm Shadow missile that was fired by Ukrainian forces into Russian territory, but this claim cannot be verified from the image alone. (ARES)
OSMP914
Analyst Note:
These R-122 ‘Grad’-type 122 mm surface-to-surface rockets were produced in North Korea. The example to the right is fitted with an F-122 impact fuze. Whilst a two-tone colour scheme is more common amongst those North Korean Grad rockets thus far identified in the context of the Ukraine conflict (these typically featuring a black forward section), uniformly coloured examples like this have also been identified previously. (ARES)
OSMP827
Analyst Note:
This image shows most of the forward half of a Tamir surface-to-air missile, including the guidance section and warhead, as fired by launchers in the Iron Dome system. These interceptor missiles are fast and manoeuvrable with a relatively small explosive payload. Their construction and low yield means that remnants are often recovered largely intact. (ARES)
OSMP731
Analyst Note:
This image shows the nosecone from an Israeli Tamir surface-to-air missile. This component is often found as a remnant after the functioning of the missile. (ARES)
OSMP685
Analyst Note:
The Tamir Interceptor is the missile fired from Israel’s Iron Dome defence system to intercept incoming rockets, missiles, projectiles, and unmanned aerial vehicles (‘drones’). The Tamir uses a warhead with a relatively small explosive yield, which typically results in the guidance section, nosecone, and (spent) rocket motor falling to the ground relatively intact after functioning. (ARES)