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It is the fastest of the world’s 12,000 known ant species, clocking a velocity of 855 millimetres per second (over 1.9 miles per hour or 3.1 kilometres per hour). It can travel a length 108 times its own body length per second, a feat topped only by two other creatures, the Australian tiger beetle Rivacindela hudsoni and the California ...
T 25 is 298.15 K (= 25 °C = 77 °F), giving a value of 346.1 m/s (= 1 135.6 ft/s = 1246 km/h = 774.3 mph = 672.8 kn). In fact, assuming an ideal gas , the speed of sound c depends on temperature and composition only, not on the pressure or density (since these change in lockstep for a given temperature and cancel out).
Trap-jaw ants of this genus have the second-fastest moving predatory appendages within the animal kingdom, [2] after the dracula ant (Mystrium camillae). [8] One study of Odontomachus bauri recorded peak speeds between 126 and 230 km/h (78 and 143 mph), with the jaws closing within just 130 microseconds on average.
On a warm damp evening, many males may emerge from the nest and mill about on the ground. Meanwhile, the workers congregate on nearby vegetation, and periodically, a wingless female comes out of the nest, although mating is difficult to observe in the constantly moving mass of ants. Although the males can fly, nuptial flights do not take place. [1]
To say that ants outnumber people on Earth would be a gross understatement. Earth's ant population of 20 quadrillion outnumbers humans by 2.5 million times, study finds Skip to main content
Ants diversified extensively during the Angiosperm Terrestrial Revolution [17] and assumed ecological dominance around 60 million years ago. [18] [1] [19] [20] Some groups, such as the Leptanillinae and Martialinae, are suggested to have diversified from early primitive ants that were likely to have been predators underneath the surface of the ...
Gliding ants have been shown to have an 85%" [1] chance of landing successfully on the same tree, as opposed to 5% if they were simply parachuting like normal ants. This adaptation helps to keep ants from getting lost or killed on the forest floor, away from their treetop nests. During a fall, gliding ants use visual cues to locate tree trunks.
The mite has been recorded at a speed of 322 body lengths per second (0.225 m/s (0.50 mph)). [3] This is far in excess of the previous record holder, the Australian tiger beetle Rivacindela hudsoni, the fastest insect in the world relative to body size, which has been recorded at 1.86 m/s (4.2 mph) or 171 body lengths per second. [7]