Summiz Post

How Israel assassinate Hassan Nasrallah in Lebanon? #israel #iran #hezbollah

AiTelly

Thumbnail image for How Israel assassinate Hassan Nasrallah in Lebanon? #israel #iran #hezbollah
Post

Israel's potential assassination of Hezbollah's Hassan Nasrallah is analyzed through advanced precision bombs and targeting methods.


You can also read:


Israeli Operation to Eliminate Hassan Nasrallah: Intelligence, Precision Bombing, and Collateral Damage

Hassan Nasrallah, the leader of Hezbollah, was believed to be hiding in a multi-building complex with an underground bunker where he met with top commanders. Israeli intelligence, after years of communication hacking and a tip-off from an external spy agency, pinpointed his location. On September 27th, Israeli officials received precise coordinates of Nasrallah's arrival at the Hezbollah headquarters, which appeared as a normal residential building but concealed a network of tunnels and bunkers.

The operation involved the use of an F-15 jet to drop approximately 80 bombs, including a bunker buster bomb designed to penetrate multiple structures. This bomb, equipped with laser and GPS guidance, was capable of traveling through 6 meters of reinforced concrete and up to 100 feet of soft ground or buildings. The bomb's precision was ensured by its advanced guidance system, which allowed it to make adjustments mid-flight to accurately reach its target. The result was the leveling of the entire complex, but the operation also caused significant collateral damage and civilian casualties.

The bunker buster bomb used in the operation weighed around 650 lbs, contained Tritonal explosive, and measured approximately 19 feet long. Its laser sensor and GPS guidance ensured that it could penetrate deep into the underground bunker where Nasrallah was believed to be hiding. The bomb's ability to displace less material as it penetrated allowed it to travel further, making it an ideal weapon for this type of mission.

The tip of the spear would have been the bunker buster bomb that can penetrate through this six-story building, leveling all six structures to the ground and, in the process, eliminating Haza Nashola in the action.

How Israel Eliminated Hassan Nasrallah: Three Scenarios

The operation to eliminate Hassan Nasrallah took place at a multi-building site, complete with an underground bunker where Nasrallah met with his top commanders. This complex, located in the Dahiya neighborhood near Beirut, was a focal point during Israeli airstrikes. The Hezbollah headquarters, housed in a seemingly ordinary six-story residential building with a solar panel roof, concealed an underground basement and a network of tunnels, believed to serve as emergency escape routes.

There are three possible scenarios that could explain how Israel managed to eliminate Nasrallah. Each scenario involves different methods of intelligence gathering and execution.

Scenario 1: External Spy Agency Tip-Off
In the first scenario, an external spy agency allegedly provided precise coordinates to Israeli officials, allowing them to drop multiple bunker-buster bombs on the target. Nasrallah, a high-value asset, had been in hiding for four years. However, reports suggest that an undercover agent, possibly Iranian, informed Israeli officials about Nasrallah's arrival at Hezbollah's underground headquarters in the southern suburbs of Beirut. The tip-off was received on the afternoon of Saturday, September 27th. Following this, a fighter jet illuminated the building using its laser target pod, and a dozen F-15 jets dropped around 80 bombs, including bunker-buster bombs, leveling the entire six-building complex and eliminating Nasrallah.

Scenario 2: Laser-Guided Targeting by Mossad Agents
The second scenario suggests that if an Iranian spy had not assisted the IDF, Mossad agents or soldiers might have been nearby, confirming Nasrallah's location or illuminating the target with a ground-based laser. In this case, GPS coordinates would have been transmitted to the IDF, and once ready, the F-15 jets would have dropped around 80 bombs, including bunker-buster bombs, to ensure the elimination of Nasrallah. Unfortunately, this operation resulted in significant collateral damage, with many innocent civilians losing their lives.

Scenario 3: Communication Hacking
The third and most likely scenario involves Israel hacking Hezbollah's communication systems for five years, intercepting encrypted messages without deploying any agents into Lebanon or Beirut. Upon learning that Nasrallah had arrived at the building, F-15 fighter jets flew in and dropped a barrage of bombs, eliminating the entire leadership inside the underground bunker. Out of the 80 bombs used, the IDF deployed the Mark 82 weapon, the GBU-39, and the bunker-buster bomb, all part of a $3 billion purchase from the U.S.

Bunker-Buster Bomb Details
The bunker-buster bomb used in the operation is a highly specialized weapon. It has a laser sensor at the front, adjustable fins in the midsection, and a warhead weighing approximately 650 pounds, containing Tritonal explosive—a mixture of 80% TNT and 20% aluminum powder. The bomb is designed to penetrate deep into structures before detonating, making it ideal for targeting underground bunkers. The casing is made of an artillery barrel, measuring around 19 feet long and 14.5 inches in diameter, giving it a relatively narrow cross-sectional area to maximize penetration.

In all three scenarios, the operation was a complex and highly coordinated effort, involving either external intelligence, on-the-ground agents, or long-term communication hacking. Regardless of the method, the result was the same: the complete destruction of the Hezbollah headquarters and the elimination of Hassan Nasrallah, though at the tragic cost of significant civilian casualties.

How the Bomb Penetrates and Reaches Its Target

The bomb is engineered to penetrate layers of reinforced bunkers or buildings, displacing less material as it moves through. This design allows it to travel further, reaching depths of up to 100 meters. The process begins with a laser illuminating the target, or alternatively, GPS guidance is pre-assigned. A Hanah 15 jet then flies near the illuminated target and releases the bomb. Once dropped, the bomb’s guidance system connects the front and tail, enabling precise adjustments to guide it accurately to its destination.

This particular bomb is a bunker buster, designed to penetrate around 6 meters of reinforced concrete and travel up to 100 feet through softer ground or buildings. The GBU 28 model is equipped with a delay fuse, allowing it to detonate after penetrating its target, rather than exploding on impact. Inside, the bomb contains 700 pounds of TNT, generating a blast radius of several hundred meters, which is quite significant for a bomb of this size.

Fuses and Explosive Mechanism

The bomb can be fitted with either a nose fuse, a tail fuse, or both. The nose fuse activates upon impact, burning the fuse conduit from front to back, creating a massive explosion. Alternatively, the tail fuse (FMU-39) is used for delayed action and is set by the pilot. When the bomb hits the target, its weight penetrates the concrete surface, and after a few seconds, the fuse activates, causing a 500-pound explosion. Despite its destructive power, the bomb is relatively inexpensive, costing around $4,000.

Upgrading to a Guided Bomb

To transform this bomb into a guided weapon, the process begins by removing the low-drag tail, making room for the installation of the guidance section. The inertial guidance kit works in tandem with a military-grade GPS, ensuring precise navigation toward the target. An adapter ring is used to attach the telemetry antenna, which transmits data and protects sensitive information through an encryption key battery. Thermal batteries power the system, while composite fins, controlled by internal gears, adjust the bomb’s trajectory with precision.

For even greater accuracy, a laser-guided kit can be added to the front of the bomb, further enhancing its targeting capabilities. Additionally, wings can be attached to create a JDAM ER (Extended Range) version, which triples the bomb’s range from 15 miles to 46 miles, or approximately 75 kilometers, without sacrificing accuracy.

JDAM and GBU-39: Precision and Guidance Systems

Once the JDAM is dropped, it switches to its internal guidance system, which relies on military-grade GPS satellites to pinpoint its exact location. This GPS system is highly reliable, unaffected by weather conditions like rain, clouds, fog, or smoke, ensuring that the JDAM can hit its target as long as the target remains stationary.

The JDAM is equipped with an inertial guidance clock that tracks its position and controls the gears of the fins. If the bomb veers off course, the fins at the back adjust based on the GPS or inertial guidance clock, ensuring the bomb stays on track. Despite not having wings, the JDAM can still turn. The analogy of a skydiver is used to explain this: just as a skydiver uses their arms, legs, and torso to change direction in the air, the JDAM uses slight deflections on its tail to adjust its course. Given the weapon's weight of around 500 lbs, even a small deflection on the tail, combined with the air pressure, is enough to direct it toward its target.

Israel has also acquired 5,000 units of the GBU-39 Glide weapon, costing $3 billion. This weapon features an advanced guidance system and is designed to penetrate steel. The bomb inside weighs 113 kg (250 lbs) and was originally used by the Air Force before being repurposed to fit inside the steel casing.

The GBU-39 is composed of several key components. The steel penetrating casing or cable cover houses the bomb. At the front is the arming generator or unit cover, followed by the wing assembly unit. Inside the wing assembly unit is the fuse well, which includes insensitive munition features. At the rear is the anti-jamming GPS guidance kit, which ensures the bomb stays on course. The GBU-39 uses both GPS and laser guidance for precision. Below the GPS kit is the guidance unit housing, and the bomb also contains a small mission computer and a thermal battery unit. Finally, the tail unit helps stabilize the missile during flight.

Conclusion

The bunker buster bomb can penetrate 6 m of reinforced concrete and is equipped with advanced guidance systems, ensuring precision strikes. Israel acquired 5,000 GBU 39 Glide weapons worth $3 billion.


Want to get your own summary?