The jet stram often plays an important tole in tornado developent. The strong upper-level winds of the jet stream create wind shear. Wiand shear can affect convection in thunderstorms so that they aren't "choked" by their own rain-cooled air. This allows storms to become stronger and last longer, making it more likely that they will be severe. If the setup of wind shear is right, it can make thunderstorms rotate, turning them into supercells. Most tornadoes are generate from the rotation in a supercell.
No, air traffic does not directly affect the jet stream. The jet stream is a high-altitude wind current caused by the rotation of the Earth and atmospheric pressure differences. While air traffic can contribute to localized weather patterns, it does not significantly impact the behavior or strength of the jet stream.
Clouds are pushed by wind currents, including the jet stream, but they do not "ride" the jet stream like a vehicle would. The jet stream can affect the position and movement of clouds, but clouds are not carried along by the jet stream in the same way that a plane might be.
The jet stream
A continental jet-stream travels parallel to the equator - a polar jet-stream travels in a north/south direction.
The Jet Stream
by faying anyway
No, air traffic does not directly affect the jet stream. The jet stream is a high-altitude wind current caused by the rotation of the Earth and atmospheric pressure differences. While air traffic can contribute to localized weather patterns, it does not significantly impact the behavior or strength of the jet stream.
Clouds are pushed by wind currents, including the jet stream, but they do not "ride" the jet stream like a vehicle would. The jet stream can affect the position and movement of clouds, but clouds are not carried along by the jet stream in the same way that a plane might be.
The jet stream
The weatherman said that the latest jet stream would bring more cold air to the region on Friday. The jet flew over Wichita, leaving a trail of jet stream behind it.
The polar jet stream is generally stronger and faster-moving than the subtropical jet stream. The polar jet stream forms at higher latitudes and is located closer to the poles, while the subtropical jet stream is located at lower latitudes. The polar jet stream is associated with larger temperature contrasts and stronger pressure gradients, resulting in stronger winds compared to the subtropical jet stream.
A continental jet-stream travels parallel to the equator - a polar jet-stream travels in a north/south direction.
mid latitude jet stream and jet stream
jet stream
The jet stream is a fast-flowing, narrow air current in the upper atmosphere that influences the movement of weather systems. Changes in the jet stream's position and strength can impact the direction and speed of surface winds. The jet stream's meandering path can cause shifts in the pressure systems on the ground, which in turn affect wind patterns at the surface.
No. The jet stream is in the upper troposphere and lower stratosphere.
The polar jet stream is generally stronger than the subtropical jet stream