Amid escalating tensions between Iran and Israel, Iran has launched a significant retaliatory attack targeting Israeli territory for the first time. The attack, conducted with over 300 drones and missiles, marks a significant escalation in the ongoing conflict between the two nations.

According to Israeli Defense Force sources, Iran's attack was carried out using a variety of missiles, showcasing the country's military capabilities. While Iran did not deploy its most advanced weaponry, it showcased a formidable arsenal of missiles capable of reaching Israeli territory.

Among the missiles in Iran's arsenal are the 'Sejjil', a long-range missile with a range of 2,000 kilometers and the capacity to carry 700 kilograms of explosives. Additionally, Iran possesses the 'Khyber', a fourth-generation medium-range missile capable of hitting targets 2,000 kilometers away with 1,500 kilograms of explosives.

Iran's 'Emad' missile boasts a range of 1,700 kilometers and can carry 750 kilograms of explosives, while the 'Shahab-3', developed with technology from North Korea and China, can strike targets up to 1,000 kilometers away.

Recently unveiled by the Islamic Revolutionary Guard Corps (IRGC), the 'Paveg' long-range missile has a range of 1,650 kilometers, posing a significant threat to major Israeli cities. Additionally, Iran possesses hypersonic missiles such as the 'Fattah-to', capable of evading radar detection and hitting targets 1,500 to 1,800 kilometers away.

Among the medium-range missiles in Iran's arsenal are the 'Khyber Shekan' and 'Hajj Qasem', with ranges of 1,400 kilometers, as well as the 'Hajj Qasem', named after Iranian commander Qassem Soleimani, who was killed by the US in January 2020.

The launch of these missiles underscores Iran's military capabilities and its willingness to respond forcefully to perceived threats, particularly in the ongoing conflict with Israel. As tensions continue to simmer in the region, the international community watches closely for further developments and potential escalation.