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It depends where you are. Most of the time, the increase in temperature will be negligible. However, if you are in a very humid place, heat rises so the temperature might increase slightly.
As temperature rises, the difference between air and processor temperature will increase. This also mean that more energy will be absorbed into the airflow. In other words, it will increase to a higher temperature and then stop. Too high temperature of the processor might cause it to be slightly unstable.
This is so because CO2 is a green house gas which does not allow the harmful UV rays of the sun trapped by the Earth to go back , which increases the temperature of the Earth. So if carbon dioxide will increase , surely the temperature would also increase.
Warmer temperatures mean little more than that molecules are moving more rapidly. This promotes enzyme activity on its own, however, as movement allows the enzymes to react to more material in a shorter amount of time.
Increase air flow = increased oxygen flow = increase in burn temperature and rate.
It depends where you are. Most of the time, the increase in temperature will be negligible. However, if you are in a very humid place, heat rises so the temperature might increase slightly.
pressure, temperature, possibly somethign else
A solution can take in energy, which is heat.
Increase in humidity, and decrease in temperature.
Insufficient data.
As temperature rises, the difference between air and processor temperature will increase. This also mean that more energy will be absorbed into the airflow. In other words, it will increase to a higher temperature and then stop. Too high temperature of the processor might cause it to be slightly unstable.
This is so because CO2 is a green house gas which does not allow the harmful UV rays of the sun trapped by the Earth to go back , which increases the temperature of the Earth. So if carbon dioxide will increase , surely the temperature would also increase.
You can heat ice, for example, and measure the temperature while it melts. You should notice that you heat it for quite a while, but that the temperature doesn't increase until all the ice is melted.
You can heat ice, for example, and measure the temperature while it melts. You should notice that you heat it for quite a while, but that the temperature doesn't increase until all the ice is melted.
No. The energy you might be referring to is kinetic energy which is the energy possessed by individual water molecules. An increase in kinetic energy will be percieved as and increase in temperature. Similarly a decrease in kinetic energy will be percieved as a decrease in temperature.
Warmer temperatures mean little more than that molecules are moving more rapidly. This promotes enzyme activity on its own, however, as movement allows the enzymes to react to more material in a shorter amount of time.
Increase air flow = increased oxygen flow = increase in burn temperature and rate.