Tornadoes.
Tornadoes are not a direct product of fronts but rather of thunderstorms. The storms that produce tornadoes most commonly occur along a cold front or dry line, but can be associated with stationary fronts or, less often, warm fronts. Some tornadic storms develop in the absence of any fronts.
Jupiter has intense radiation belts composed of charged particles trapped in its magnetic field, which can be harmful to spacecraft and astronauts. It also has powerful storms, like the Great Red Spot, with winds reaching over 400 mph. Additionally, Jupiter's strong gravitational pull can act as a hazard for missions attempting to land on its moons.
The shape and height of clouds determine the kind of weather that is likely to occur. For example, cumulus clouds indicate fair weather, while nimbostratus clouds often bring steady rain. Additionally, the height of clouds can indicate the stability of the atmosphere and the potential for storms.
Thor was the Norse god of thunder, lightning, storms, oak trees, strength, protection, and fertility. He was one of the most powerful and popular Norse gods, known for his bravery and fierce nature. Thor was often depicted with his magical hammer, Mjölnir, which was believed to wield control over storms and protect against evil forces.
A sunspot is a region on the Sun's surface that is marked by intense magnetic activity, which inhibits convection, forming areas of reduced surface temperature. See link for further information
The Enhanced Fujita scale (EF0 to EF5) is used to rate tornadoes based on the severity of the damage they cause.
The weakest category of tornado is EF0 on the enhanced Fujita scale. The weakest of the two actual varieties of tornado are type 2 tornadoes, those that don't form in supercells (landspouts and most waterspouts). These rarelly exceed Ef0 intensity.
When a funnel cloud touches the ground, it becomes a tornado. Tornadoes are characterized by rotating columns of air extending from a cloud to the ground. They can be incredibly destructive and are classified based on the damage they cause using the Enhanced Fujita Scale.
Wind Storms!
Wind Storms!
There is no tool used to measure damage. Rather, engineers and meteorologists look at what kind of damage occurred to what structures. Guidelines for what to look for are detailed on the Enhanced Fujita scale.
poopy storms most of the time
storms are traced with different kind of things that meteorologists use.
In terms of the Fujita/Enhanced Fujita scale rating, you cannot simply judge the intensity based on the appearance, but generally, rapid rotation and large debris indicate an intense tornado. In terms of type, large tornadoes and tornadoes connected to wall clouds are usually supercell-type tornadoes. Tornadoes that appear to consist of a tube of dust may be landspouts.
The Enhanced Fujita Scale (EF-Scale) classifies tornadoes based on their intensity and duration. It ranges from EF0 (weakest) to EF5 (strongest), with duration estimates typically based on damage assessments and eyewitness reports. Duration can vary widely depending on the tornado's strength and path.
it is classified as an anerobic exercise
only thonder storms