but FLAMES will burn both those things and there was a firestorm over the main road.
There is a man near the blue car which was driven in after the fire and belongs to him. That car does not appear in other drone footage. Besides, I'm sure lots of blue cars burned in the fire. It's a popular color.
The umbrellas are on the windward side of the building, when the flames were blowing towards the ocean, away from them.
As for the aluminum with a melting point of 1200 degrees, look to the rubber in the tires. Rubber fires burn at 1600 degrees and higher.
The damage is consistent with nearly every suburban fire I have ever seen.
Asphalt is composed of 90% non-combustible materials like rocks and sand. The remaining 10% like tar and other elements will liquefy and evaporate, but not catch fire. You cannot assess asphalt damage from these videos, but if you were on site and lifted the settled aluminum pools, you would likely see erosion.
but FLAMES will burn both those things and there was a firestorm over the main road.
There is a man near the blue car which was driven in after the fire and belongs to him. That car does not appear in other drone footage. Besides, I'm sure lots of blue cars burned in the fire. It's a popular color.
The umbrellas are on the windward side of the building, when the flames were blowing towards the ocean, away from them.
As for the aluminum with a melting point of 1200 degrees, look to the rubber in the tires. Rubber fires burn at 1600 degrees and higher.
And what temp does Tar melt/burn at??120° - 165°.....Why are the roads basically untouched??
The damage is consistent with nearly every suburban fire I have ever seen.
Asphalt is composed of 90% non-combustible materials like rocks and sand. The remaining 10% like tar and other elements will liquefy and evaporate, but not catch fire. You cannot assess asphalt damage from these videos, but if you were on site and lifted the settled aluminum pools, you would likely see erosion.