Raindrops falling4/5/2023 When a raindrop plops onto the pad, the instrument estimates the drop size by assuming that the drip fell at its accepted terminal velocity. The formulas used to calculate terminal velocity are approximations and might churn out incorrect values for the slow speeds of such tiny drops, he argues.Įven if the expected terminal velocity for the small drops is inaccurate, Larsen says, “they’re still hitting the ground at velocities faster than previously assumed.” Scientists often estimate the size of raindrops in a storm using pressure-sensitive pads. “This is not only a picky, academic, whimsical issue,” he says. However, climate scientist Francisco Tapiador of the University of Castilla-La Mancha in Toledo, Spain notes that drops smaller than 0.5 millimeters wide are technically drizzle, not raindrops. The newly formed smaller droplets would at first continue moving at the larger drop’s higher speed. One possible explanation for the speedy little drops is that larger raindrops shatter during their descent ( SN: 8/15/09, p. “We don’t know exactly what the cause is, but we’re very confident it’s not just hitting the edge of the instrument,” Larsen says. Because the team also measured horizontal speed, they were able to disregard drops that had splashed off the edge of an instrument and flown sideways into a detection area. While all drops larger than a millimeter across plunged at expected speeds, more than 30 percent of drops smaller than around 0.5 millimeters fell faster than terminal velocity, the researchers report October 1 in Geophysical Research Letters. Over five months, the team monitored six major rainstorms and detected more than 23 million individual drops. At the heart of this array was a rain monitor that every second snaps more than 55,000 images of falling raindrops to determine their size, speed and direction. To find out if such dashing drips occur naturally, Larsen and colleagues assembled an assortment of 22 instruments in Hollywood, S.C. If that were the case, the smaller droplets may simply have continued to travel at the parent drop’s speed, having not yet slowed down to terminal velocity. Scientists thought that the zippy raindrops may have been tiny fragments of fast-moving larger drops, which had broken up after splashing off the instruments used to measure them. But then researchers spotted tiny drops falling seemingly too fast. Until 2009, scientists thought all raindrops hit the ground traveling at terminal velocity. Smaller drops are limited to velocities under a meter per second. Larger raindrops with diameters more than about 0.5 millimeters reach terminal speeds of several meters per second. As the descending drop speeds up, the air pushes back harder until eventually the upward and downward forces balance out and the drop falls at a steady speed. When a raindrop first forms, gravity accelerates its fall. “If our guesses are wrong as to how fast these drops are falling, that could ultimately affect a whole bunch of other work.” SPEED TRAP Researchers used an array of 22 precipitation sensors including this one to clock raindrop speeds. “If you’re going to understand rain, you need to make guesses,” Larsen says.
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