standard pressure lapse rate is 1"hg/ 1000ft increase in altitude. standard at sea level is 29.92"hg
Standard lapse rate 2 degreesCelsius(3.5 degreesFahrenheit) per 1000 ft.
6.5 degrees celsius
0.6 degrees Celsius.
Next answer please
5
Depends, usually 100m to 300m or so.
Its not the highest mountains that have a permanent snowline, its where they are located on earth that dictates it. The snow line varies by what country you are in. What matters is temperature, which coincidentally does decrease by 1 degree Celsius every 100m in elevation (height).
1m.
29.45
There are 100m in a hectometre
100m above sea llevel
yes, it decreases about 1 deg Celsius for every 100m you ascend in altitude.
On average, it ws about 100m above current levels. See the related link.
An approximate value can be calculated by the following expression: Condensation Level (in feet) = [Surface Temperature(F) - Surface Dew Point Temperature(F)]*(1000/2.2) or Condensation Level (in meters) = [Surface Temperature(C) - Surface Dew Point Temperature(C)]*(200) Solution: Dry Adiabatic Lapse Rate (DALR) => -5.5 F/1000 ft of altitude (-1C/100m) Saturated Adiabatic Lapse Rate (SALR) => -3.3F/1000ft of altitude (-0.5C/100m) The SALR is not linear and varies with the initial surface temperature The Level of Condensation will occur at the altitude where the Air Temperature is equal to the Dew Point temperature at that altitude. Setting the two equations equal to each other will give an approximate value. TA: temperature at altitude; TS: temperature at surface; DA: dew point temperature at altitude; DS: dew point temperature at surface TA = TS-(5.5F/1000ft)*altitude or TS-(1C/100m)*altitude DA = DS-(3.3F/1000ft)*altitude or DS-(0.5C/100m)*altitude Setting TA = DA and rearranging quantities gives the equations given above The level of condensation derived by the above method will only yield an approximate value.
yes, it decreases about 1 deg Celsius for every 100m you ascend in altitude.
No, if you are referring to height above sea level, then it is the opposite way around. Approximately, for every 100m above sea level you go, the temperature drops around 0.7-1 degree celcius.
165M above sea level, and that is the Centenary Tower, perched on the ridge around the Valley Lake. Main residential area from 100m (on the side of the crater) down to about 10m (flat areas)
tavera
Depends, usually 100m to 300m or so.
100m
50m
1 hectare