Table of Contents
How much damage can 1 megaton bomb do?
The volume the weapon’s energy spreads into varies as the cube of the distance, but the destroyed area varies at the square of the distance. Thus 1 bomb with a yield of 1 megaton would destroy 80 square miles. While 8 bombs, each with a yield of 125 kilotons, would destroy 160 square miles.
How heavy is a 1 megaton nuclear bomb?
nuclear weapon yields words kiloton (1,000 tons) and megaton (1,000,000 tons) to describe their blast energy in equivalent weights of the conventional chemical explosive TNT.
How big is a 1.2 megaton explosion?
With a maximum yield of 1.2 megatons (5.0 PJ), it is the most powerful nuclear weapon in the United States nuclear arsenal….B83 nuclear bomb.
B83 | |
---|---|
Mass | 1,100 kilograms (2,400 lb) |
Length | 3.7 meters (12 ft) |
Diameter | 46 centimeters (18 in) |
Blast yield | 1.2 megatons (maximum) |
What is the force of a 1 megaton bomb?
Within a 6-km (3.7-mile) radius of a 1-megaton bomb, blast waves will produce 180 tonnes of force on the walls of all two-storey buildings, and wind speeds of 255 km/h (158 mph). In a 1-km (0.6-mile) radius, the peak pressure is four times that amount, and wind speeds can reach 756 km/h (470 mph). Technically, humans can withstand
Would it be possible to detonate a nuclear bomb in space?
Fortunately, you needn’t worry about a nuclear bomb of this caliber being detonated in space. Researchers learned a lot from the tests conducted in 1962, and one of the lessons learned was that detonating nukes in space isn’t a good idea. That said, it’ll probably never happen again.
What is the impact of a single nuclear bomb?
First, let’s get this out of the way – there is no clear-cut impact of a single nuclear bomb, because it depends on a whole lot of things, including the weather on the day it’s dropped, the time of day it’s detonated, the geographical layout of where it hits, and whether it explodes on the ground or in the air.
How big was the largest Nuke ever tested?
But this 1.4-megaton bomb was insignificant compared to the largest nuke ever detonated, the 50-megaton Tsar Bomba. Performing the same test with the bigger brother of the two bombs would result in a fireball four times larger than the experiment conducted in 1962, and the EMP would be tremendously more powerful.