mb is a unit of measurement for pressure, 1 mb is 0.001 bar. mb is an abbreviation for millibar
1 bar is roughly atmospheric pressure
980 mb to 1045 mb (Those are the values for deep low-pressure systems and strong high-pressure systems). The average sea-level pressure is 1013 mb. The highest and lowest sea level pressures record are 1084 mb and 870 mb.
They do not have tempatures....but High air pressure starts at 980 milibars (mb) to 1050 mb. Low Air Pressure is anything below 980 mb
Millibars (mb) is a measure of the pressure (or weight) of the air usually taken as close to the core of the hurricane as possible. As a general rule, the lower the pressure, the higher the winds.
The lowest pressure ever recorded in a storm to be labeled a hurricane was 882 mb (millibars) in Hurricane Wilma in 2005. However, Typhoon Tip (a typhoon is really just a hurricane in the western Pacific) had a recorded pressure of 870 mb.
Formulas for atmospheric pressure variation with altitude. Scroll down to related links and look at "Atmospheric pressure - Wikipedia".
it is arround 0.30 GB remember 1012 KB=1 MB and 1012 MB=1GB
1012 miles
a megabyte is 1012kb's which is 1012 bytes.
MB in weather stands for Millibars, and is a measure of pressure in the atmosphere.
Its called binary code consist of only 1s and 0s can look anything like this: 111111111 000000000 101010101 110011001 001101010 101010100 001110100 a single one or zero called a bit a line of ones and zeros are called bytes 1012 bytes is a kilobyte or KB 1012 kilobytes is a megabyte or MB 1012 megabytes is a gigabyte or GB 1012 gigabyte is a terabyte or TB In speed they are considered in hertz: Khz Mhz Ghz and in very rare cases Thz
70.1 MB is about 1/14 of a GB, or .0701 of a Gigabyte- Their are 1012 Megabytes in a Gigabyte.
The meaning of 1.92 mb may depend on how it is used. The proper meaning of mb is millibar(s), so in that context it would mean 1.92 millibars of barometric pressure. It is sometimes used improperly for megabyte(s), which should be abbreviated as MB.
Well this is a twofold answer because pressure itself does not mean anything when it comes to wind but rather pressure gradient or how fast the pressure drops over a given area. The faster the pressure drops over a small area the stronger the wind is forced to blow.Now lets take 2 examples here: atmospheric pressure 915 mb pressure drop: 25 mb Distance: 100 miles pressure drop/mile = 1/4 mb atmospheric pressure: 990 mb pressure drop: 25 mb Distance: 100 miles pressure drop/mile = 1/4 mb in these 2 situations the wind would blow the same speed. However like most situations the standard air pressure outside of the system would be around the same pressure or around 1010 mb so if we have the same 2 storms again but one of the storms is much larger then the other storm here is the result: atmospheric pressure 915 mb pressure drop: 95 mb Distance: 380 miles pressure drop/mile = 1/4 mb atmospheric pressure: 990 mb pressure drop: 20 mb Distance: 80 miles pressure drop/mile = 1/4 mb Again the wind speed would be the same since we are still falling at 1/4 mb per mile. So atmospheric pressure, storm size, surrounding air pressure, and other factors all come into play here... however if you had 2 of the same sized storms in the same atmospheric conditions but one had a pressure of 915 mb and the other had an air pressure of 990 mb the one with the 915 would have a higher wind speed due to a higher pressure gradient.
Any pressure below 29.92 in or 1013.2 mb
980 mb to 1045 mb (Those are the values for deep low-pressure systems and strong high-pressure systems). The average sea-level pressure is 1013 mb. The highest and lowest sea level pressures record are 1084 mb and 870 mb.
1013 mb
millibars. One one-thousandth of atmospheric pressure.