Both temperature and pressure increase as depth increases.
The melting temperature would drop. If it dropped to a point below the in-situ temperature, melting of the inner core would occur.
This is consequence of a very common law which is known as Boyle's law.According to it when we give pressure to the gas at constant temperature the volume of gas decreases.The gas law formula is: pV/T=k; the volume is decreasing.
As you climb the mountain, the air pressure decreases. The temperature also drops.
The triple point of water (where you can boil water yet not melt ice; this can only happen with the correct temperature and pressure)
Because chemical reactions happen quicker in an increases temperature. So the more chemical reactions, the more chemical weathering
As pressure increases, temperature increases and volume decreases.
As the pressure increases, the volume wil decrease.
It increases as the temperature increases.
The gas is likely to expand and raise the pressure inside the can. Should the pressure become too great the can will burst.
If the temperature increases, then the volume of the gases cannot stay the same. The pressure will keep building until it overcomes the integrity of the container its contained in and causes an explosion.
Atmospheric pressure will decrease as altitude increases.
When temperature increases so the reading shown also increases.
The melting temperature would drop. If it dropped to a point below the in-situ temperature, melting of the inner core would occur.
i do not know either. welcome to the club
When the temperature of a gas is increased at a constant pressure, its volume increases. When the temperature of a gas is devreased at constnt pressure, its volume decreases.
It increases.
the forest evaporates