Nice day at the beach.
Mind if I park here? That's what I thought. B53 being offloaded at the Pantex Plant, the B53 carried the megaton class W53 warhead up to 9 megatons.
A few sobering facts about the W53: Assuming a detonation at optimum height, a 9 megaton blast would result in a fireball with an approximate 2.9 to 3.4 mi (4.7 to 5.5 km) diameter.[16] The radiated heat would be sufficient to cause lethal burns to any unprotected person within a 20-mile (32 km) radius (1,250 sq mi or 3,200 km2). Blast effects would be sufficient to collapse most residential and industrial structures within a 9 mi (14 km) radius (254 sq mi or 660 km2); within 3.65 mi (5.87 km) (42 sq mi or 110 km2) virtually all above-ground structures would be destroyed and blast effects would inflict near 100% fatalities. Within 2.25 mi (3.62 km) a 500 rem (5 Sievert) dose of ionizing radiation would be received by the average person, sufficient to cause a 50% to 90% casualty rate independent of thermal or blast effects at this distance.[17]
Mind if I park here? That's what I thought. B53 being offloaded at the Pantex Plant, the B53 carried the megaton class W53 warhead up to 9 megatons.
A few sobering facts about the W53: Assuming a detonation at optimum height, a 9 megaton blast would result in a fireball with an approximate 2.9 to 3.4 mi (4.7 to 5.5 km) diameter.[16] The radiated heat would be sufficient to cause lethal burns to any unprotected person within a 20-mile (32 km) radius (1,250 sq mi or 3,200 km2). Blast effects would be sufficient to collapse most residential and industrial structures within a 9 mi (14 km) radius (254 sq mi or 660 km2); within 3.65 mi (5.87 km) (42 sq mi or 110 km2) virtually all above-ground structures would be destroyed and blast effects would inflict near 100% fatalities. Within 2.25 mi (3.62 km) a 500 rem (5 Sievert) dose of ionizing radiation would be received by the average person, sufficient to cause a 50% to 90% casualty rate independent of thermal or blast effects at this distance.[17]