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No Thunderstorms often form along cold fronts, but are generally associated with low pressure. However, a cold front is not necessary for thunderstorms to form.
Condensation and wind shear are both important in tornado formation. Tornadoes develop from thunderstorms, which are powered by the energy released from condensation. Wind shear is what gives thunderstorms the rotation then need to produce tornadoes. Tornado-producing storms may form along a stationary front, but are more common along cold fronts.
no its along a divering boundary
Tornadoes are produced by thunderstorms. Most of the thunderstorms that produce tornadoes develop along weather fronts, particularly cold fronts.
Hurricanes do not form along frontal boundaries.
Tornadoes are produce my strong thunderstorms. Typically these thunderstorms form along a boundary where cool air pushes into a mass of warm air, forcing it upward.
It is possible but unlikely. Tornadoes need thunderstorms to develop and high pressure systems suppress thunderstorm formation. Those thunderstorms that do develop in a high pressure system will generally not be strong enough or organized enough to produce tornadoes. The thunderstorms that produce tornadoes more often occur along fronts which are associated with low pressure systems.
A tropical cyclone (the generic term for such a storm) develops from an area od thunderstorms and low pressure as it is fueled by the moisture that evaporates from warm ocean water. Being tropical, such systems usually form in an environment of little temperature contrast. A frontal low develops along boundary between air masses of different temperatures. Such systems gain strength from the instability created by the temperature gradient, rather than by the convective instability that drives a tropical cyclone.
Mild mucosal thickening along the left frontal sinus is a sign of sinusitis.
Florida has a very warm, moist climate, making it very prone to thunderstorms. When the storms that form along frontal boundaries (which tend to be stronger) encounter wind shear they start rotating, which allows them to produce tornadoes.
yes
The energy for all weather on Earth ultimately comes from the sun. The sun's energy heats the surface of the Earth, which in turn heats the air just above it. Where the sun heats the surface of the ocean, evaporation occurs, which moistens the air. Warm, moist air carries a very large amount of energy that is the power source for thunderstorms. Thunderstorms are what spawn tornadoes, but not just any thunderstorms. The thunderstorms that spawn tornado typically form along a frontal boundary. Given the right setup of wind patterns at different levels of the atmosphere, these storms can start rotating, turning into supercells. The rotation in the storms can then tighten and intensify to form tornadoes. So, in short, the sun heating the Earth and causing evaporation provides energy that powers thunderstorms. Under the right conditions these storms can start roatating, and their energy can become focused in the form oftornadoes.
No. it was along a convergent boundary.
No, it would form along a separating (divergent) tectonic plate boundary.
The sensory strip