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This is known as a thermocline. It is a layer where the temperature decreases rapidly with depth. The thermocline often separates the warm surface waters from the colder deeper waters in a lake or ocean.
The temperature of the mantle is greater at Point B than Point A. The temperature of the mantle is determined by its depth which is greater at Point B than Point A. The deeper the mantle the hotter and more pressurized it is and so the temperature at Point B will be greater than at Point A.Temperature can also be affected by other factors such as the composition of the mantle and the presence of radioactive elements. In this case since both points are in the same area and have similar composition the temperature will be determined by the depth.To summarize the temperature of the mantle is greater at Point B than Point A because it is deeper and thus more pressurized and hot.
The hotter it is the faster the molecules will move away from each other
When temperature increases the particles of an object gain more heat energy, therefore move faster colliding with each other more.
You would think that the balloon at the lowest temperature would shrink the fastest due to the simple ideal gas law equation. PV=nRT HOWEVER the temperature is not the determining factor in this case. Hydrogen leaks through rubber and the greater the temperature the faster the leakage. So it will be the balloon at the HIGHEST temperature that will leak the fastest. This is also true for Helium. Other gases obey the Ideal Gas Law.
a layer in a body of water in which water temperature drops with increased depth faster than it does in other layers
This is known as a thermocline. It is a layer where the temperature decreases rapidly with depth. The thermocline often separates the warm surface waters from the colder deeper waters in a lake or ocean.
The temperature of the mantle is greater at Point B than Point A. The temperature of the mantle is determined by its depth which is greater at Point B than Point A. The deeper the mantle the hotter and more pressurized it is and so the temperature at Point B will be greater than at Point A.Temperature can also be affected by other factors such as the composition of the mantle and the presence of radioactive elements. In this case since both points are in the same area and have similar composition the temperature will be determined by the depth.To summarize the temperature of the mantle is greater at Point B than Point A because it is deeper and thus more pressurized and hot.
Temperature, salinity and total saturation of other minerals, depth.
The hotter it is the faster the molecules will move away from each other
Pressure /temperature relationship The greater the pressure normally the higher the temperature
All other things being equal, Its the increased vibration of the air molocules at higher temperature that allows faster transmission of the pressure wave.
Because of people being bloody idiots and killing each other with knives and guns!
weird question! but banana, provided the temperature and other conditions are same.
Faster diffusion will take place if the surroundings are warmer. Increase in temperature means an increase in molecules' speed (kinetic energy). So the molecules move faster and there will be more spontaneous spreading of the material which means that diffusion occurs more quickly.
It depends on which part of the country are you measuring the temperature (because of the altitude) and the aquifer´s depth you are measuring the temperature at. Rule of thumb in this case is that for shallow aquifers, ground water is going to be some degrees (celsius) lower than the mean environ. temperature for the site. From own experience in Alajuela or Heredia, GW temperature might be 20 °C, but as I said, it depends on altitude, GW depth among other factors.
Temperature and kinetic energy have a proportional relationship; as one increases so does the other. Temperature is essentially the speed to which molecules and atoms in a gas are moving, so the faster they move the higher the temperature is.