Could Iran Have Been Close to Making a Nuclear Weapon? Uranium Enrichment Explained
In the predawn darkness on Friday local time, Israeli military aircraft struck one of Iran's uranium-enrichment complexes near the city of Natanz. The warheads aimed to do more than shatter concrete; they were meant to buy time, according to news reports. For months, Iran had seemed to be edging ever closer to 'breakout,' the point at which its growing stockpile of partially enriched uranium could be converted into fuel for a nuclear bomb. (Iran has denied that it has been pursuing nuclear weapons development.)
But why did the strike occur now? One consideration could involve the way enrichment complexes work. Natural uranium is composed almost entirely of uranium 238, or U-238, an isotope that is relatively 'heavy' (meaning it has more neutrons in its nucleus). Only about 0.7 percent is uranium 235 (U-235), a lighter isotope that is capable of sustaining a nuclear chain reaction. That means that in natural uranium, only seven atoms in 1,000 are the lighter, fission-ready U-235; 'enrichment' simply means raising the percentage of U-235.
U-235 can be used in warheads because its nucleus can easily be split. The International Atomic Energy Agency uses 25 kilograms of contained U-235 as the benchmark amount deemed sufficient for a first-generation implosion bomb. In such a weapon, the U-235 is surrounded by conventional explosives that, when detonated, compress the isotope. A separate device releases a neutron stream. (Neutrons are the neutral subatomic particle in an atom's nucleus that adds to their mass.) Each time a neutron strikes a U-235 atom, the atom fissions; it divides and spits out, on average, two or three fresh neutrons—plus a burst of energy in the form of heat and gamma radiation. And the emitted neutrons in turn strike other U-235 nuclei, creating a self-sustaining chain reaction among the U-235 atoms that have been packed together into a critical mass. The result is a nuclear explosion. By contrast, the more common isotope, U-238, usually absorbs slow neutrons without splitting and cannot drive such a devastating chain reaction.
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To enrich uranium so that it contains enough U-235, the 'yellowcake' uranium powder that comes out of a mine must go through a lengthy process of conversions to transform it from a solid into the gas uranium hexafluoride. First, a series of chemical processes refine the uranium and then, at high temperatures, each uranium atom is bound to six fluorine atoms. The result, uranium hexafluoride, is unusual: below 56 degrees Celsius (132.8 degrees Fahrenheit) it is a white, waxy solid, but just above that temperature, it sublimates into a dense, invisible gas.
During enrichment, this uranium hexafluoride is loaded into a centrifuge: a metal cylinder that spins at tens of thousands of revolutions per minute—faster than the blades of a jet engine. As the heavier U-238 molecules drift toward the cylinder wall, the lighter U-235 molecules remain closer to the center and are siphoned off. This new, slightly U-235-richer gas is then put into the next centrifuge. The process is repeated 10 to 20 times as ever more enriched gas is sent through a series of centrifuges.
Enrichment is a slow process, but the Iranian government has been working on this for years and already holds roughly 400 kilograms of uranium enriched to 60 percent U-235. This falls short of the 90 percent required for nuclear weapons. But whereas Iran's first-generation IR-1 centrifuges whirl at about 63,000 revolutions per minute and do relatively modest work, its newer IR-6 models, built from high-strength carbon fiber, spin faster and produce enriched uranium far more quickly.
Iran has been installing thousands of these units, especially at Fordow, an underground enrichment facility built beneath 80 to 90 meters of rock. According to a report released on Monday by the Institute for Science and International Security, the new centrifuges could produce enough 90 percent U-235 uranium for a warhead 'in as little as two to three days' and enough for nine nuclear weapons in three weeks—or 19 by the end of the third month.
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Scientific American
2 days ago
- Scientific American
Could Iran Have Been Close to Making a Nuclear Weapon? Uranium Enrichment Explained
In the predawn darkness on Friday local time, Israeli military aircraft struck one of Iran's uranium-enrichment complexes near the city of Natanz. The warheads aimed to do more than shatter concrete; they were meant to buy time, according to news reports. For months, Iran had seemed to be edging ever closer to 'breakout,' the point at which its growing stockpile of partially enriched uranium could be converted into fuel for a nuclear bomb. (Iran has denied that it has been pursuing nuclear weapons development.) But why did the strike occur now? One consideration could involve the way enrichment complexes work. Natural uranium is composed almost entirely of uranium 238, or U-238, an isotope that is relatively 'heavy' (meaning it has more neutrons in its nucleus). Only about 0.7 percent is uranium 235 (U-235), a lighter isotope that is capable of sustaining a nuclear chain reaction. That means that in natural uranium, only seven atoms in 1,000 are the lighter, fission-ready U-235; 'enrichment' simply means raising the percentage of U-235. U-235 can be used in warheads because its nucleus can easily be split. The International Atomic Energy Agency uses 25 kilograms of contained U-235 as the benchmark amount deemed sufficient for a first-generation implosion bomb. In such a weapon, the U-235 is surrounded by conventional explosives that, when detonated, compress the isotope. A separate device releases a neutron stream. (Neutrons are the neutral subatomic particle in an atom's nucleus that adds to their mass.) Each time a neutron strikes a U-235 atom, the atom fissions; it divides and spits out, on average, two or three fresh neutrons—plus a burst of energy in the form of heat and gamma radiation. And the emitted neutrons in turn strike other U-235 nuclei, creating a self-sustaining chain reaction among the U-235 atoms that have been packed together into a critical mass. The result is a nuclear explosion. By contrast, the more common isotope, U-238, usually absorbs slow neutrons without splitting and cannot drive such a devastating chain reaction. On supporting science journalism If you're enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today. To enrich uranium so that it contains enough U-235, the 'yellowcake' uranium powder that comes out of a mine must go through a lengthy process of conversions to transform it from a solid into the gas uranium hexafluoride. First, a series of chemical processes refine the uranium and then, at high temperatures, each uranium atom is bound to six fluorine atoms. The result, uranium hexafluoride, is unusual: below 56 degrees Celsius (132.8 degrees Fahrenheit) it is a white, waxy solid, but just above that temperature, it sublimates into a dense, invisible gas. During enrichment, this uranium hexafluoride is loaded into a centrifuge: a metal cylinder that spins at tens of thousands of revolutions per minute—faster than the blades of a jet engine. As the heavier U-238 molecules drift toward the cylinder wall, the lighter U-235 molecules remain closer to the center and are siphoned off. This new, slightly U-235-richer gas is then put into the next centrifuge. The process is repeated 10 to 20 times as ever more enriched gas is sent through a series of centrifuges. Enrichment is a slow process, but the Iranian government has been working on this for years and already holds roughly 400 kilograms of uranium enriched to 60 percent U-235. This falls short of the 90 percent required for nuclear weapons. But whereas Iran's first-generation IR-1 centrifuges whirl at about 63,000 revolutions per minute and do relatively modest work, its newer IR-6 models, built from high-strength carbon fiber, spin faster and produce enriched uranium far more quickly. Iran has been installing thousands of these units, especially at Fordow, an underground enrichment facility built beneath 80 to 90 meters of rock. According to a report released on Monday by the Institute for Science and International Security, the new centrifuges could produce enough 90 percent U-235 uranium for a warhead 'in as little as two to three days' and enough for nine nuclear weapons in three weeks—or 19 by the end of the third month.
Boston Globe
3 days ago
- Boston Globe
Gaza Humanitarian Foundation says five workers killed in attack
As many as eight may have been killed in the attack, according to a person familiar with operations at the distribution sites inside Gaza, who called the workers 'heroes.' A number were left wounded, and others were apparently kidnapped by the attackers, said the person, who spoke on the condition of anonymity to talk about the fast-unfolding events. Palestinians working at the sites — local Arabic speakers who help organize the surge of Gazans picking up aid and physically hand over the boxes of food — are paid volunteers, many of whom have been living at the distribution sites for security reasons. Some opt to return to their families between shifts or after working a number of days at a time. The four sites are staffed 24 hours a day by US private security contractors, who also secure the roads used by truck convoys carrying daily consignments of aid into Gaza from the Israeli border. Advertisement Many humanitarian organizations have refused to participate in the GHF operations, which they charge violate their principles of neutrality and further Israeli war aims by limiting the places where food is available to Gazans and exposing them to increased danger. Advertisement Health authorities inside Gaza have said that dozens of civilians approaching the distribution sites have been shot and killed by Israeli troops at positions near the sites. The Israel Defense Forces has said it is investigating some of those shootings. Israel, which partially lifted an 11-week blockade on aid entering the enclave to enable the GHF operation, has also allowed the UN World Food Program and other nonprofit agencies to resume a relatively small number of their own aid deliveries outside the bounds of the guarded compounds. But many of those trucks have been attacked and looted by armed gangs and desperate, hungry people. Drivers, fearing the lack of security, have often refused to ferry the goods into Gaza. The deliveries also have been limited by what the United Nations has said is Israel's refusal to approve transit routes through an expanding war zone as it steps up a renewed campaign against Hamas. Hamas has not attacked the GHF distribution points or the US contractors directly, but it has issued public threats against them, anyone working for them, and Gazans receiving the aid. 'Tonight, the world must see this for what it is: an attack on humanity,' the foundation statement said. 'We call on the international community to immediately condemn Hamas for this unprovoked attack and continued threat against our people simply trying to feed the Palestinian people.' Advertisement
Yahoo
4 days ago
- Yahoo
Video does not show China recently airdropping aid to Gaza
What was claimed: A video shows China dropping aid on 17 May 2025. Our verdict: This isn't wholly accurate. While the video does depict an aid drop in Gaza, it has been circulating online since at least September 2024. And there's no evidence that China has recently delivered aid to Gaza by air. A video which has been shared over 8,000 times with claims it depicts an air aid drop by China is misleading. The clip, which is circulating on Facebook, was shared on 17 May with the caption: 'This is not Saudi Arabia's 600 Billion This is not Qatar's 1.2 Trillion This is not UAE's 1.4 Trillion This is china dropping air aids today [sic].' In the video, large parachutes can be seen falling from the sky attached to crates, while a large number of people on the ground run to retrieve them. Although neither the caption nor the overlaid text specifies where aid is being dropped, many accounts in the comments reference Gaza or Palestinians. The parachutes seem to be identical to those seen in other videos of humanitarian aid being airdropped into Gaza. The same video was also shared on X (formerly Twitter) on 17 May with claims it showed China dropping food and medical supplies into Gaza. However, this footage does not show China delivering aid through air drops last month. The same clip has been circulating online since at least September 2024, when it was shared on TikTok with a description stating that it showed the 'situation in northern Gaza in obtaining aid'. Full Fact has not been able to verify when or where exactly the video was taken. As we have previously written, we have found no credible reports that China has been delivering aid by air during the 11-week Israeli blockade, which was recently eased to allow a limited amount of food and aid into Gaza. Aid distribution centres in Gaza run by Gaza Humanitarian Foundation, a controversial US and Israel-backed aid network, were closed on 4 June, following a number of shootings on the roads to the sites, and only two centres were reportedly operating on Thursday, 5 June. Air aid drops from other countries, including the US, UK, Jordan, France, Germany, Indonesia, the Netherlands, the United Arab Emirates and Egypt, did take place between March and May 2024, but we've not found any reports of these having involved China. China announced in February earlier this year—before the blockade began on 2 March—that it would deliver 60,000 food parcels through Jordan, which according to Chinese media reports, was to be transported over land borders and not by air. We have previously fact checked other videos of aid being air dropped via similar parachutes as well as aeroplanes in flight which have been shared with misleading claims that China was responsible. And similar claims about other images or videos supposedly showing China airdropping aid have been debunked by other fact checkers. Before sharing content like this that you see gaining traction on social media, first consider whether it comes from a trustworthy and reliable source and really depicts what it is claimed to show. Our guide to spotting misleading videos can help you do this. This week (1-7 June) Full Fact is the subject of the BBC Radio 4 Appeal. Listen today to broadcaster and journalist Martha Kearney tell Charlotte's story—all donations mean Full Fact can do more to help people like Charlotte.
