Engineering a planet page 19 alternate history discussion gasco abu dhabi


I’m glad you’ve few full fledged continents here, it makes electricity and circuits class 6 pdf the nomenclature easier for me. The Northern Continent (NC, vs. SC for Southern Continent) in the winter is home to a massive High Pressure Supercell. This is because the NC stretches from the polar regions (where an independent high pressure system forms) to the high pressure belt along the tropics. And even if the planet is cooler on average, the general thermodynamic principles should still hold for the gas efficient cars 2012 convection heating of the planet. So, this HPSC covers the entirety of the northernmost regions, save where a LPS can exist over the oceans and seas. This creates wind patterns that pretty much circulate from the HPS’s to the LPS’s counter clockwise and inwards. So in your northern oceans I think you’d see trade winds flowing East-West in the north, then cutting south along the eastern shore of the NC and then changing to West East as the currents hit the tropics. Once the air goes around the planet, it’ll hit the western coast of NC and angle northwards to repeat the cycle.

Now towards the equatorial regions of NC, you would see a different wind pattern forming sgas belfast. As the land is generally a HPS, the air will flow south-west-west-west as it hits the equatorial regions. These areas will get a lot of water, as your terrain suggests enough variation in water-land-water regions to at least moisten the coasts, and likely inland as well.

Your equatorial islands, especially Ring Land, are almost all in the low pressure equatorial band. So all electricity generation capacity of these will be ‘hot’ and ‘wet’. If it were a temperate world, here are your jungles. Cold world, still rain forests, but perhaps temperate instead of tropical. Wind patterns pull air in from electricity video ks1 the high pressure belts north and south, so you have a generally East-West flow around the equator. That it is unimpeded by any continent here perhaps might give you a rather consistent temperature zone, as my pressure maps suggest.

In the southern hemisphere the high pressure supercell wraps around the planet, but is focused on the ocean instead of the SC. This’ll give your SC’s coastal areas a good bit of moisture, and will contribute to the growth of the ice caps gas finder map (ironically in the summer). The coastal areas will likely be the most inhabitable to the southern extremes of the SC, up until the ice cap is met.

Thusly, due to Coriollis forces, the air radiating out of the HPSC makes for interesting winds. Along the northern coasts, the air goes generally north-east, before gas urban dictionary hitting 60 degrees north and then beginning to angle to the northwest to follow the coast line. The eastern coast of NC looks to be rather well watered during the winter, as does the coast of the inner sea (which has winds radiating CCW outwards).

It is along the equatorial band that things get interesting. The direction of the prevailing winds in those latitudes suggest that everything should go SW towards the equator, however the winds are going initially SE, so you will have a massive slowdown and ‘pile up’ as it were for almost three quarters of the circumference of the planet! Talk about doldrums.

To the south of the equator the winds are strong again, and so moisture should be carried northwards but gas key staking tool will be dropped right around the equatorial zones and not getting much further north than that. You have a very narrow band of high pressure that wraps gas mask art around the planet and connects with the SC’s HPSC and surrounds the southern LPSC that is over the ocean. This LPSC is very interesting, because I think that it will be a massive storm breeding ground. There are a lot of twisting air currents that will likely coalesce into vortices and perhaps powerful hurricanes.