high HPA works with any gun. the only ones that specifically run on low are certain angels.
If you mean "identical" air pressures, no. Winds are caused by differences in air pressure, so you need to understand what you mean by "similar". If you reckond 1050 hPa is "similar " to 1010 hPa (which will produce strong winds if the distance between them is only tens of miles), the answer is yes. If you think 1050 hPa is similar to 1048 hPa, you'll only get a very light breeze.
....a decrease of barometric pressure by 1 hPa may cause a ~1 cm rise in sea level.... (1 hPa=1 mb) or (1 hectoPascal=1 millibar)
At its peak, Ivan was a category 5 hurricane with 910 hPa pressure and 165 mph winds.
A pressure deficit of 100 mb (hPa) was observed when a violent tornado near Manchester, South Dakota on June 24, 2003 passed directly over an in-situ probe. In less than a minute the pressure dropped to 850 mb (hPa), which is the lowest pressure ever recorded at the Earth's surface when adjusted to sea level.[11] There is a questionable and unofficial citizen's barometer measurement of a 192 mb (hPa) drop around Minneapolis, Minnesota in 1904.[12] From Wikipedia http://en.wikipedia.org/wiki/Tornado_records Confirmed at NOAA http://www.crh.noaa.gov/fsd/storms/tor062403/samaras/samaras.php Hope that answers your question..
That's a tough question to answer as posed due to variables such as temperature and pressure. However, using a standard day (temperature of 15C and pressure of 29.92 in. Hg or 1013 hPa) we can calculate the decrease in pressure as a function of altitude and come up with an approximate (uncorrected) value. Baguio is approximately 1500 meters (or 4875 feet) in elevation and using a rule of thumb, the pressure decreases approximately 1 in. Hg per thousand feet of altitude gained. This is an approximate figure and only works with smaller altitude changes. However, 4875 feet would roughly equate to a pressure change of -4.875 inches yielding a pressure of 25.05 in. Hg, or 848 hPa.
Yes it can, with a high pressure tank.
any Co2 tank and high pressure HPA tanks.
hPa is hectoPascals, the unit of atmospheric pressure. 1026 hPa is relatively high pressure.
No, automotive tire fillers will not have enough pressure to refill a HPA tank.
a HPA tank, every marker currently produced (and every marker that has been produced for a LONG time) that will work on CO2 will also be fine on HPA. the output pressure of a standard high pressure HPA tank is around 750-800 psi, and the output on your co2 tank is right around 800 so it is a direct swap, id recomend getting a 68/4500 HPA tank, it will give you about the same amount of shots as a 20oz CO2
Yes, any pressure or HPA tank on an FEP quest will work. It can not run on Co2.
HPA tank stands for High Pressure Air and is a 3500 to 5000 psi canister for paintball made of steel or carbon fiber. It is an alternative to CO2 tanks, and is also called: Nitrogen tank, nitro or air tank.
What I think you mean is high or low pressure, like for a HPA tank? All spyders, bt's and tippmanns run on high pressure air which either means you should buy a 4500 psi tank. All guns should be chronographed for 295-300 fps, so all guns have the same velocity.
Yes, as long as its output pressure is high enough to operate the gun (higher for tippmanns, spyders).
HPA means high pressure air, so it basically means everything you breath in compressed into a tank
No you do not.
A high pressure system has a weaker horizontal pressure gradient than a low pressure system, which means the atmospheric pressure varies widely in a low pressure system and doesn't vary much in a high pressure system. The wind speed depends on the strength of the horizontal pressure gradient.On a meteorological map, the horizontal pressure gradient is marked with isobars, which are lines with match the points with the same atmospheric pressure. A high pressure system is characterized by widely spaced isobars while low pressure systems are noted by tightened close isobars.A high pressure system may have an air pressure of 1028 hPa in his core and 1013 hPa in its periphery: the air pressure varies about 16 hPa. A low pressure system may have an air pressure of 987 hPa in its core and 1013 in its periphery : the air pressure varies about 26 hPa. So, the winds will be very light and even non-existent in a high pressure system while the winds will be very strong and even turbulent in a low pressure system.