the temperature is as the molecules break apart from
each other
When the dew point decreases while the amount of water vapor remains constant, the air temperature is also decreasing. This means the air is cooling down without any change in water vapor content. Eventually, the air temperature will reach the new, lower dew point, and condensation will begin.
dew point temperature. It is the temperature at which the air reaches its saturation point and condensation begins to form, leading to the formation of dew or fog.
The dew-point temperature is the temperature at which air becomes saturated with moisture. Using a psychrometric chart or calculator, you can determine that the dew-point temperature is approximately 10 degrees Celsius in this scenario.
Calcium is a solid at its boiling point temperature, which is approximately 1,484 degrees Celsius. At this temperature, calcium would undergo a phase change from a solid to a liquid before reaching its boiling point to become a gas.
The temperature at which air becomes saturated with water vapor is called the dew point temperature. This is the point at which the air is holding as much water vapor as it can at that temperature, resulting in condensation.
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.
wha is happening to the temperature
The answer depends on where points b and c are!
Baron (B) is a chemical element that is a solid at room temperature. It has a melting point of 727°C and a boiling point of 1897°C.
The temperature of mantle material is generally greater at point B, which is closer to the Earth's core. As we move away from the core towards the Earth's surface (point C), the temperature tends to decrease.
The temperature in kelvins at which the reaction is happening
where is TBR happening A PUNE b London c Singapore
A given form of liquid alcohol will turn to vapor at its boiling point, which is different for each type of alcohol.
To determine where the density of the material is greater, we need to consider factors such as pressure, temperature, and composition at points B and C. Generally, if point B is deeper within a material or subjected to higher pressure than point C, it will likely have a greater density due to the compression of particles. Conversely, if point C is at a higher temperature or in a less compact state, its density may be lower. Thus, without specific information about the conditions at points B and C, we cannot definitively conclude which has greater density.
point a.
it takes N-miles from point A to Point B and so on and so on
There can be no answer. Suppose B is some substance. Then B's freezing temperature is a numerical value on some scale. A number is not a substance so B cannot be the temperature.