From Boyle ideal gas law P1V1/T1 = P2V2/T2 so volume is reduced by a factor of 4
Density and air pressure will increase, while altitude decreases.
As you move from the bottom to the top of the mountain, the air pressure decreases.
That depends on what the starting temperature of the water is,and what temperature you want it to reach.If you expect to get a number, you must first give the necessary numbers.
The air pressure will decreases as you go up the mountain. Density and air mass goes down too. Hope this helps!
You must consider not only the temperature, but also the mass and the heat capacity. In this case, you can expect large differences mainly in the mass.
From Boyle ideal gas law P1V1/T1 = P2V2/T2 so volume is reduced by a factor of 4
The relationship between air pressure and temperature is most frequently used in weather. When there's a high pressure system you can expect lower temperatures per higher pressure and dry air. When there's a low pressure system, its the exact opposite. You can expect humid air and warm temperatures.
you would expect it to have high pressure
you would expect it to have high pressure
High Pressure days, these types of pressure systems do not allow for cloud formation, therefore, you can expect sunnydays.
400 mL (Explanation): again boyle's law PV=PV. Since the pressure is halved (500 to 250), then the volume must be doubled in order to maintain this equation. 200 x2=400 so that's the answer
temperature of the fluid.
You expect calm weather with few or no clouds.
I would expect it to be lower.
energy movement from higher temperature regions
I would expect it to be lower.
I would expect it to be lower.