A lot of us like walking in the forest for the sheer simplicity and beauty of it; the peacefulness of the air, the smell of the wood and flowers, the colors and shapes of the various fungi. Yet we also yearn for something unusual in our lives – something removed from the mundane of our favorite forest trolls.
In ‘Giant Forest’ at Sequoia National Park, you can have your cake and eat it too. On one hand – you are visiting one of the oldest national parks with views of the Western edge of the Sierra Nevada Mountains and the rivers streaming down from the same, but you are also literally walking among the giants,. And it is spooky, as well, so the kids will love it.
What’s the largest living thing on the earth? It’s the Giant Sequoia (Sequoiadendron giganteum) and is also called Big Tree, or Sierra Redwood. The giant sequoia trees dwarf everything around them. People, other trees, roads and the like all seem miniature compared to the tree. Remember, you are talking about a tree twice the height of the Statue of Liberty.
The wide diameter trunks (30 to 40 feet) make you feel like you are in a film where the trees are about to start running around tossing houses to a fro.
The raw specifications of the Giant Sequoias are staggering: the Giant Forest features trees that have the largest volumes in the world. The combination of the diameter of the tree (about two school busses long) plus enormous height (a bit less than a football field in length) certainly get your attention. Because the trees are stump-like (shaped like a baseball bat or club, and not like a broom handle), I was able to calculate the total volume in cubic feet. It’s a little less than 1,000,000 cubic feet.
How much is a million cubic feet? Let’s compare it to the volume in the cabin of a typical 757 with an average of 6 seats wide. It turns out to be about 25 airplane cabins worth of volume!
Some interesting physics ideas that present themselves are capillary action and center of mass. First: capillary action. It has been calculated that water rises in a thin tube (due to forces of adhesion between the water and the tube) such that the tallest trees can never go past 130 meters or about 30 percent higher than the Giant Sequoias.
Capillary action works because the xylem cells in trees have diameters on the order of 25 microns or .025 mm – about one fourth the size of a piece of paper. The extreme thinness helps the water climb up so that thousands of gallons can be lifted up into the heights of a tree. (Note that the strongest manmade pumps can’t get water that high!)