Starship Asterisk*

neufer wrote: ↑Sat Sep 18, 2021 6:35 pm

D. Gus wrote: ↑Sat Sep 18, 2021 4:50 pm
... the Coriolis effect is at it maximum at the equator, not zero as stated in the write-up. The force from Coriolis is proportional to (ω X r), where ω is the rotation speed and r is the axial distance from the center of rotation. Since the Earth turns on the axis that runs through the poles, the equator is at the maximum distance from this axis, so it gets the maximum Coriolis forces. Conversely, the polar regions have the least Coriolis forces.

The nominal (i.e., horizontal) Coriolis effect is
at it maximum at the poles and zero at the equator.

The "Coriolis force" is proportional to 2m(ω X v), where
ω is the rotation vector and v is the velocity vector.

D. Gus wrote: ↑Sat Sep 18, 2021 4:50 pm
... the Coriolis effect is at it maximum at the equator, not zero as stated in the write-up. The force from Coriolis is proportional to (ω X r), where ω is the rotation speed and r is the axial distance from the center of rotation. Since the Earth turns on the axis that runs through the poles, the equator is at the maximum distance from this axis, so it gets the maximum Coriolis forces. Conversely, the polar regions have the least Coriolis forces.

neufer wrote: ↑Thu Sep 16, 2021 1:10 pm

Click to play embedded YouTube video.

bystander wrote: ↑Thu Sep 16, 2021 4:41 am

asmacarthur_y wrote: ↑Thu Sep 16, 2021 3:18 am

Am interested to know more of the explanation behind the lone trail in the Northeast Pacific.

• Hurricane Guillermo (1997)

bystander wrote: ↑Thu Sep 16, 2021 4:41 am

asmacarthur_y wrote: ↑Thu Sep 16, 2021 3:18 am

Am interested to know more of the explanation behind the lone trail in the Northeast Pacific.

• Hurricane Guillermo (1997)

asmacarthur_y wrote: ↑Thu Sep 16, 2021 3:18 am Am interested to know more of the explanation behind the lone trail in the Northeast Pacific.

revloren wrote: ↑Wed Sep 15, 2021 6:24 pm
Anyone remember the Pacific storm that headed east and appeared fizzle out of the coast of California?

• Bovary, Mulva, Loreola, Celeste, Hest, Gipple...

https://en.wikipedia.org/wiki/Hurricane_Elida_(2002) wrote:

The track and intensity of Elida, according to the Saffir–Simpson scale

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<<Hurricane Elida was the first hurricane of the 2002 Pacific hurricane season to reach Category 5 strength on the Saffir-Simpson Hurricane Scale. Forming on July 23 from a tropical wave, the storm rapidly intensified from a tropical depression into a Category 5 hurricane in two days, and lasted for only six hours at that intensity before weakening. It was one of only sixteen known hurricanes in the East Pacific east of the International Date Line to have reached such an intensity. Although heavy waves were able to reach the Mexican coastline, no damages or casualties were reported in relation to the hurricane.

The hurricane moved westward due to a high pressure ridge while undergoing two eyewall replacement cycles: the first was around peak intensity and was completed when the hurricane moved over cooler waters, and the second was a brief cycle shortly after the hurricane began to weaken. The last advisory was issued while the hurricane was west of Mexico, but it was not until the remnants were west of Los Angeles, California that they finally dissipated. Elida's rapid intensification and unsteady weakening after reaching its peak intensity caused large errors in the intensity forecasting of the hurricane. Although the intensity forecasts were off, the track forecasts were better than usual compared to the ten-year period prior to that year.>>

donalgary wrote: ↑Wed Sep 15, 2021 8:57 pm I'd really like to see a four maps, each one for a five year period to see if there is a systematic change in the paths. Any suggestions?

donalgary wrote: ↑Wed Sep 15, 2021 8:57 pm I'd really like to see a four maps, each one for a five year period to see if there is a systematic change in the paths. Any suggestions?

bngooby@gmail.com wrote: ↑Wed Sep 15, 2021 12:54 pm Curious about the different colors used in the graph -- what do the blues vs. yellows represent.
BTW, love cyclone kitty!

This map shows the tracks of all Tropical cyclones which formed worldwide from 1985 to 2005. The points show the locations of the storms at six-hourly intervals and use the color scheme from Saffir-Simpson Hurricane Scale.

RocketRon wrote: ↑Wed Sep 15, 2021 5:03 am Fascinating.

And South America doesn't get them - except for a solitary example ??
Are there any theories about why that may be ?

Fred the Cat wrote: ↑Wed Sep 15, 2021 3:29 pm
Hurricanes and most tornados except for one odd duck.

It almost flew too far south. Apparently some southern fowl do head north.

• Typhoon Vamei was a northern equatorial fowl who flew Northwest:

https://en.wikipedia.org/wiki/Tropical_Storm_Vamei wrote:

Typhoon Vamei developed on December 26, 2001 at 1.4° N

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Typhoon Sarah developed on March 21, 1956 at 2.2º N

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Click to play embedded YouTube video.

<<Typhoon Vamei was a Pacific tropical cyclone that formed closer to the equator than any other tropical cyclone on record. The last storm of the 2001 Pacific typhoon season, Vamei developed on December 26 at 1.4° N in the South China Sea. It strengthened quickly and made landfall along extreme southeastern Peninsular Malaysia. Vamei rapidly weakened into a remnant low over Sumatra on December 28, and the remnants eventually re-organized in the North Indian Ocean. Afterward, the storm encountered strong wind shear once again, and dissipated on January 1, 2002. Vamei broke the previous record of Typhoon Sarah in the 1956 Pacific typhoon season, which reached tropical storm strength at 2.2º N. Due to a lack of Coriolis effect near the equator, the formation of Vamei was previously considered impossible.

Vamei developed in a vortex that appears every winter along the northwest coast of Borneo and is maintained by the interaction between monsoonal winds and the local topography. Often, the vortex remains near the coastline, and in an analysis of 51 winters, only six reported the vortex as being over the equatorial waters for four days or more. As the area in the South China Sea between Borneo and Singapore is only 665 km wide, a vortex needs to move slowly to develop. A persistent northerly wind surge for more than five days, which is needed to enhance the vortex, is present, on average, nine days each winter. The probability for a pre-existing tropical disturbance to develop into a tropical cyclone is between 10 and 30 percent. Thus, the conditions which resulted in the formation of Vamei are believed to occur once every 100–400 years.>>

Fred the Cat wrote: ↑Wed Sep 15, 2021 3:29 pm
Proves we ducks must live in the northern universe.

https://en.wikipedia.org/wiki/Duck#Distribution_and_habitat wrote:

Click to play embedded YouTube video.

<<Ducks have a cosmopolitan distribution, and are found on every continent except Antarctica. Several species manage to live on subantarctic islands, including South Georgia and the Auckland Islands. Ducks have reached a number of isolated oceanic islands, including the Hawaiian Islands, Micronesia and the Galápagos Islands, where they are often vagrants and less often residents. A handful are endemic to such far-flung islands.

Some duck species, mainly those breeding in the temperate and Arctic Northern Hemisphere, are migratory; those in the tropics, however, are generally not. Some ducks, particularly in Australia where rainfall is patchy and erratic, are nomadic, seeking out the temporary lakes and pools that form after localised heavy rain.>>

Chris Peterson wrote: ↑Wed Sep 15, 2021 12:38 pm

JohnD wrote: ↑Wed Sep 15, 2021 11:00 am
Quote, " cyclones usually occur over water, which makes sense since evaporating warm water gives them energy. " Elementary mistake, surely? CONDENSING vapour provides the typhoon's energy.

Or am I too picky, the water vapour has to be evaporated first, which occurs in tropical regions, the condensation occuring as the storm moves away from the Equator, and cools?

Well, it is the combination that matters, right? The system is a heat engine, with the evaporation/condensation cycle transferring energy from the ocean to the atmosphere where it is converted to kinetic energy. Energy can't be created, after all. Perhaps we should say that it is the warm water that provides the energy, and the other mechanisms just move it.

When (light) hot moist air rises above the oceanic thermal equator it continues to rise & remain warm by condensing into clouds, rain & eventually ice crystals in the towering tropical cumulonimbus clouds of the Intertropical Convergence Zone (ITCZ).

The oceanic thermal equator slowly tracks the Sun's annual seasonal cycle with a delay of about a quarter of a cycle (i.e., warmest ocean temperatures ~ fall equinox ~ peak cyclone season). Such delayed tracking drags the ITCZ north & south of the actual geographic Equator where at latitudes 5º (and higher) rotating ITCZ convergent surface winds can spin up into tropical cyclones.

New tropical cyclones are pushed westward by the subtropical Easterly Trade Winds until they are pulled up into the mid-latitude westerly winds (by subtropical anti-cyclones) where they dissipate due to wind shear and lack of warm ocean water.

https://en.wikipedia.org/wiki/Intertropical_Convergence_Zone wrote:

Hadley cells within an idealized depiction of the Earth's atmosphere

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<<The Intertropical Convergence Zone (ITCZ), known by sailors as the doldrums or the calms because of its monotonous windless weather, is the area where the northeast and the southeast trade winds converge. It encircles Earth near the thermal equator though its specific position varies seasonally. When it lies near the geographic Equator, it is called the near-equatorial trough. Where the ITCZ is drawn into and merges with a monsoonial circulation, it is sometimes referred to as a monsoon trough, a usage that is more common in Australia and parts of Asia.

The ITCZ appears as a band of clouds, usually thunderstorms, that encircle the globe near the Equator. When the ITCZ is positioned north or south of the Equator, these directions change according to the Coriolis effect imparted by Earth's rotation. For instance, when the ITCZ is situated north of the Equator, the southeast trade wind changes to a southwest wind as it crosses the Equator. The ITCZ is formed by vertical motion largely appearing as convective activity of thunderstorms driven by solar heating, which effectively draw air in; these are the trade winds. The ITCZ is effectively a tracer of the ascending branch of the Hadley cell and is wet. The dry descending branch is the horse latitudes. The location of the ITCZ gradually varies with the seasons, roughly corresponding with the location of the thermal equator. As the heat capacity of the oceans is greater than air over land, migration is more prominent over land. Over the oceans, where the convergence zone is better defined, the seasonal cycle is more subtle, as the convection is constrained by the distribution of ocean temperatures.

The ITCZ is commonly defined as an equatorial zone where the trade winds converge. Rainfall seasonality is traditionally attributed to the north–south migration of the ITCZ, which follows the sun. Although this is largely valid over the equatorial oceans, the ITCZ and the region of maximum rainfall can be decoupled over the continents. The equatorial precipitation over land is not simply a response to just the surface convergence. Rather, it is modulated by a number of regional features such as local atmospheric jets and waves, proximity to the oceans, terrain-induced convective systems, moisture recycling, and spatiotemporal variability of land cover and albedo.>>

JohnD wrote: ↑Wed Sep 15, 2021 11:00 am Quote, " cyclones usually occur over water, which makes sense since evaporating warm water gives them energy. "

Elementary mistake, surely? CONDENSING vapour provides the typhoon's energy.

Or am I too picky, the water vapour has to be evaporated first, which occurs in tropical regions, the condensation occuring as the storm moves away from the Equator, and cools?

xxxmicrobexxx@hotmail.com wrote: ↑Wed Sep 15, 2021 9:25 am

RocketRon wrote: ↑Wed Sep 15, 2021 5:03 am Fascinating.

And South America doesn't get them - except for a solitary example ??
Are there any theories about why that may be ?

I came to ask the same question...

RocketRon wrote: ↑Wed Sep 15, 2021 5:03 am Fascinating.

And South America doesn't get them - except for a solitary example ??
Are there any theories about why that may be ?