At an altitude of 100 meters, one can typically see a broad view of the surrounding landscape, including buildings, trees, roads, and natural features like rivers and hills, depending on the area. The visibility may be affected by factors such as weather conditions, urban density, and obstacles like taller structures. In urban areas, the view is likely to be dominated by cityscapes, while in rural or mountainous regions, natural scenery may prevail. Overall, the perspective at this height provides a clear but limited overview of the environment.
yes, it decreases about 1 deg Celsius for every 100m you ascend in altitude.
Yes, on average, temperature decreases by 6.5°C per kilometer as altitude increases in the troposphere. This is known as the normal lapse rate. However, in some regions, temperature inversions can cause temperatures to increase with altitude.
An Ibex
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.
. The angle of depression of the top and bottom of a tower as seen from the top of a 100m high cliff are 300 and 600 respectively. Find the height of the tower.?
An object seen halfway between the horizon and the zenith has an altitude of 45 degrees.An object seen due east of the observer has an azimuth of 90 degrees.
You will have to define what "accurate" means to you. I've made shots out to 100m and seen shots made at 300m
100m
No, it cannot be seen from space. Not even the Great Wall of China can be seen from more than 160 km altitude. It's only a myth.
You will have to define what "accurate" means to you. I've made shots out to 100m and seen shots made at 300m
Altitude
1 hectare