The altitude cannot be determined based solely on temperature and relative humidity. Altitude is primarily based on air pressure, not temperature and humidity. Additional information, such as air pressure or location, would be needed to accurately determine altitude.
An increase in temperature as altitude is increased.
She would experience temperatures around -60°C to -20°C in the stratosphere. The temperature usually increases with altitude in the stratosphere due to the presence of ozone absorbing ultraviolet radiation.
The observed temperature during distillation on top of a mountain would generally be lower than at sea level due to the decrease in atmospheric pressure with altitude. This would result in a lower boiling point for the liquid being distilled, potentially impacting the efficiency and rate of distillation. It is important to consider the atmospheric conditions and make adjustments to the distillation process to compensate for the lower boiling point.
The temperature of the air high above the ground can vary significantly depending on factors such as altitude and weather conditions. However, in general, temperatures tend to decrease with altitude, so it is likely that the temperature of the air high above the ground would be below 0 degrees Celsius.
The altitude cannot be determined based solely on temperature and relative humidity. Altitude is primarily based on air pressure, not temperature and humidity. Additional information, such as air pressure or location, would be needed to accurately determine altitude.
An increase in temperature as altitude is increased.
9 is not a factor of 12000, If it were 12000 would be divisible by 9.
Celsius
The difference in altitude between 5040 meters above sea level and 156 meters below sea level is 5196 meters. This is because you would be adding 5040 meters and 156 meters, which results in a total of 5196 meters difference in altitude between the two points.
Mach 3.2 refers to traveling at 3.2 times the speed of sound. The speed of sound varies depending on altitude and temperature, but at sea level and room temperature, it is approximately 343 meters per second. Therefore, Mach 3.2 would be about 1,100 meters per second.
Water can not boil at its freezing point. Water can only boil at its boiling point. These are two contradictory points in temperature that would cancel each other out.
well i am guessing that because of the higher altitude the temperature would be colder
-60 c
To find 30 percent of 12000, you would multiply 12000 by 0.30 (which is the decimal form of 30 percent). So, 12000 x 0.30 = 3600. Therefore, 30 percent of 12000 is 3600.
well the air pressure decreases as you go higher up and so does the temperature due to the warm air expanding and cooling. so yes high altitude affects you anywhere
If the wet adiabatic lapse rate is 6 degrees per kilometer, the temperature decreases by 6 degrees for every kilometer gained in altitude. To find the temperature at the top of the mountain, you need to know the initial temperature at the base of the mountain and the altitude gained to the top of the mountain. Start with the base temperature and subtract 6 degrees for every kilometer of altitude gained.