Today, we...
- Finalized our idea
- Researched precedents and sources for information
- Brainstormed our game plan for the next week
- Made a Rhino file and laser-cutted a house outline we will use
- Ordered materials for assembly (arriving tomorrow)
Research/Idea Doc: https://docs.google.com/document/d/1tS_moL11wLq0xZ3OCQW0xEWKmSRIzGhkKsLNmnBLKOE/edit?usp=sharing
Research:
“A beloved giant of the forest, this tree was once thought to be fireproof — and it’s easy to see why. Giant sequoia bark can get as much as three feet thick, completely sheltering the growing cambium layer of the tree from damage. Branches also begin high up on the trunk, preventing fire from moving up into the tree canopy. These traits were developed over thousands of years through repeated exposure to low-intensity fires. One additional fire-related trait is the tree’s cones. They open up when exposed to heat, allowing their seeds to sprout and take root on bare soil that has been cleared of needles and other organic material. Thick bark protects the inner layer of the tree that’s actively growing (known as cambium). High moisture content in the wood or leaves means they will not burn as intensely or as quickly.”
“Some trees are more likely to survive because moist foliage will not burn until it is heated sufficiently to drive off the moisture. When the winds are moving fast often it is past the trees before they have dried sufficiently to ignite.”
“For objects like cars or houses to burn, they “must be exposed to a sufficient temperature for a sufficient duration” so that the materials chemically break down in a process known as thermal decomposition (here), Niamh Nic Daeid, Director of the Leverhulme Research Centre for Forensic Science at the University of Dundee, said to Reuters. When this occurs, the materials “release gases which, when mixed with air, can ignite,” she added.”
“Dense tree trunks filled with water will not catch fire easily, JB Friday, Extension Forester at the University of Hawaii at Manoa said, with Christopher Baird, Associate Professor of Physics at West Texas A&M University, adding that water has a high heat capacity allowing it to absorb a lot of heat before increasing much in temperature (here).
Wildfires “tend to be most intense at ground level,” Baird said, where dry grass and shrubs known as “fine fuels” can burn easily (here), while trees with no low branches, such as palm trees, have their branches above the most intense parts of the fire.”
https://www.nps.gov/seki/learn/nature/giant-sequoias-and-fire.htm