|NASA's Terra satellite captured this image |
of Hurricane Sandy at 12 PM Eastern on Oct. 28, 2012.
CREDIT: NASA Earth Observatory
Oct 28, 2012 | Live Science
By tomorrow night (Oct. 29) or Tuesday, winds and clouds from Hurricane Sandy could stretch across the eastern third of the United States, according to weather predictions from the National Hurricane Center (NHC).
Sandy currently has hurricane-force winds extending up to 175 miles (280 kilometers) from its center, and tropical storm-force winds out to 520 miles (835 km), according to the NHC. That's second only to 2001's Olga in terms of the size of wind field of a storm. (Olga's winds extended out 600 miles (965 kilometers).
How did this Frankenstorm get so big?
The main reason is that Sandy is morphing from a tropical cyclone to an extra-tropical cyclone, said Chris Davis, a scientist with the University Corporation for Atmospheric Research in Boulder, Colo. Extra-tropical cyclones, or those outside the tropics, tend to be significantly larger than tropical ones. Although Sandy is huge, its size is not unprecedented, he said. What's more unusual is the location and timing—nor'easters can get this big, but usually occur in the winter, he said.
Sandy is progressing into an extra-tropical cyclone as it gets farther north, and tapping into the power of the jet stream, which ferries air from west to east over North America. The jet stream, like the storm itself, is powered by this temperature difference between air masses, he said. [4 Things You Need to Know About Hurricane Sandy]
While Sandy still retains the warm core of a tropical hurricane, it's also deriving power from the movement of warm air to the north and cold air to the south, similar in some respects to the Perfect Storm of 1991.
"It's an interesting case where both these processes are going on," Davis said.
Sandy started out as a large hurricane, but not unusually large. Although it's still unclear exactly what determines the size of hurricanes, it partially has to do with the amount of moist air found in the location where the cyclone is born, he said. In Sandy's case, there was ample warm, moist air in the western Caribbean, allowing it to become big.
"As a whole, we (the tropical storms community) don't know a lot about what controls tropical storm size," wrote Clark Evans, a scientist at the University of Wisconsin-Madison, in an email. "We know that storms that form from smaller disturbances tend to be smaller; we also know that storms that form in drier environments tend to be smaller."