## How long would it take to terraform Mars with nukes?

Now, mathematician Robert Walker calculates on the blog Science 2.0 that if we wanted to make Mars habitable though nuclear explosions, we would need to send what amounts to an assembly line of bombs up to the Red Planet and detonate 3,500 of them every single day for about seven weeks — bad news for Musk’s ambitious …

## Has a hydrogen bomb ever exploded?

On November 1, 1952 the United States detonated a hydrogen device in the Pacific that vaporized an entire island, leaving behind a crater more than a mile wide.

How does Elon terraform Mars?

Elon Musk explained that we could terraform Mars by exploding nuclear bombs over its polar caps. He had said that the radiation wouldn’t be an issue since the explosion would be in space over the poles, but the heat release would vaporize the frozen carbon dioxide to greenhouse warm the planet and melt the water ice.

### What is a hydrogen explosion?

A “hydrogen explosion”occurs when air includes more than 5% in density of oxygen, and more than 4% in density of hydrogen,they then ignite with a resulting explosion. If the temperature is more than 500℃, it will ignite spontaneously and explode.

### What caused the hydrogen tank to explode?

The explosion occurred during a routine delivery of hydrogen when a hydrogen relief device failed, which allowed the contents of the hydrogen tank to escape and be ignited by an unknown source. This article covers the findings of the incident investigation and the actions the plant has taken to prevent a reoccurrence.

Why did the hydrogen explosions happen at Fukushima nuclear plant?

Why did the hydrogen explosions happen at the Fukushima nuclear plant?. Because of the explosion at reactor 1, the building shell violently collapsed on March 12th.

## Can hydrogen explode in a nuclear reactor?

That hydrogen can then be released from the reactor core and containment vessel and, if it accumulates in sufficient quantities—concentrations of 4 percent or more in the air—it can explode, as has apparently occurred at reactors No. 1 and 3, and possibly No. 2 as well.