temperature is the average kinetic energy of the atoms of a gas. so with increased temperature the speed of the atoms of gas would increase. and since pressure is the collisions of said atoms on the side of a container; increased speed means more collisions of the particles and the side of the container increasing the pressure, and the same aplies for lowered temperature lower temp lower speed and less collions and less pressure.
Temperature, pressure, and common ion effect
Resistance of water is probably defined as pressure being applied by water on objects and as it's stated in fluid mechanics books pressure increases as height decreases or depth increases, so simply the answer is "yes".
The Mesosphere has the lowest temperature of the layers of Earth's atmosphere because Temperature decreases with height in the mesosphere. The mesopause, the temperature minimum that marks the top of the mesosphere, is the coldest place on Earth and has an average temperature around −100 °C (−148.0 °F; 173.1 K)
three factors are 1) volume 2) temperature 3) upon the depth of the fluid
if the dna sequence of a gene was tacttaccgagctagact then what kind of mutation has occured This has nothing to do with the question of air pressure. Either a change of temperature or a change of volume can affect air pressure, according to Boyle's Law of Gases. Increasing temperature=increased air pressure Decreased volume=increased air pressure The reverse is also true. Decreased temperature=decreased air pressure Increased volume=decreased air pressure
As depth increases, pressure also increases due to the weight of the water column above. Temperature affects pressure by influencing the density of a fluid; warm water is less dense and exerts less pressure than cold water at the same depth.
Both temperature and pressure increase with depth.
As Earth's depth increases, both temperature and pressure increase. The increase in temperature is primarily due to the Earth's internal heat and geothermal energy. Pressure increases with depth due to the weight of the overlying rock and materials compressing the layers beneath.
More depth equals more pressure, thus why ears pop when diving in water.
The degree of temperature and exertion of pressure by the molten materials (magma) within the mantle is directly proportional to its depth. This means that, the deeper you go down the mantle the higher the degree of temperature and pressure exerted.
Pressure depends on depth, not volume. Pressure increases with increasing depth due to the weight of the overlying fluid pressing down. Volume can affect pressure indirectly by changing the depth of the fluid column.
No, the relationship between temperature and depth is primarily influenced by factors such as geothermal heat flux and thermal conductivity of the material, while pressure at depth is mainly dependent on the weight of overlying material. Temperature generally increases with depth due to geothermal heating, while pressure increases with depth due to the weight of the material above.
YES it is called "pressure temperature relationship" temperature rises so does the pressure
As depth beneath the Earth's surface increases, both temperature and pressure increase. This is due to the weight of the overlying rock and the Earth's internal heat. The increase in pressure and temperature with depth is known as the geothermal gradient.
they don't...
Both increase.
Pressure and temperature increase with depth beneath the surface of the Earth.