Friday, January 13, 2012

30 giant hornets vs. a whole honey bee hive



Thirty Japanese giant hornets take on an entire hive of European honey bees and slaughter 30,000 bees in three hours.


Not having evolved alongside the giant hornet, European honey bees don't have a natural defense against them. But the Japanese honey bee does:


The Japanese honey bee, on the other hand, has a defense against attacks of this manner. When a hornet approaches the hive to release pheromones, the bee workers emerge from their hive in an angry cloud-formation with some 500 individuals. As they form a tight ball around the hornet, the ball increases in heat to 47 °C (117 °F) from their vibrating wings, forming a convection oven as the heat released by the bees' bodies is spread over the hornets. Because bees can survive higher temperatures (48 to 50 °C (118 to 122 °F)) than the hornet (44 to 46 °C (111 to 115 °F)), the latter dies.


source: http://kottke.org/12/01/30-giant-hornets-vs-a-whole-honey-bee-hive

Thursday, January 12, 2012

Replacing our old worn-out kilogram


The standard measure for the kilogram needs to change because, offically speaking, the universe is gaining mass. The trick is finding a technique that ties the kilogram to a fundamental constant (like the second is tied to energy transition times in cesium atoms).


Familiarly known as Le Grand K and held in a vault just outside of Paris under three bell jars, [the international prototype kilogram] dates back to the 1880s, when it was forged by the British metallurgist George Matthey from an alloy of nine-tenths platinum and one-tenth iridium. As a metric unit, the kilogram is "equal to the mass of the international prototype," according to the official definition. In other words, as metrologists like to point out, it has the remarkable property of never gaining or losing mass. By definition, any physical change to it alters the mass of everything in the cosmos.

Aside from a yearly ceremonial peek inside its vault, which can be unlocked only with three keys held by three different officials, the prototype goes unmolested for decades. Yet every 40 years or so, protocol requires that it be washed with alcohol, dried with a chamois cloth, given a steam bath, allowed to air dry, and then weighed against the freshly scrubbed national standards, all transported to France. It is also compared to six temoins (witnesses), nominally identical cylinders that are stored in the vault alongside the prototype. The instruments used to make these comparisons are phenomenally precise, capable of measuring differences of 0.0000001 percent, or one part in 1 billion. But comparisons since the 1940s have revealed a troublesome drift. Relative to the t'emoins and to the national standards, Le Grand K has been losing weight -- or, by the definition of mass under the metric system, the rest of the universe has been getting fatter. The most recent comparison, in 1988, found a discrepancy as large as five-hundredths of a milligram, a bit less than the weight of a dust speck, between Le Grand K and its official underlings.