Abstract
A. Changes in average global temperature are not driven by changes in the concentration of carbon dioxide; B. Instead, autonomous changes in the concentration of water vapor, ΔTPW, drive changes in water vapor heating, thus, changes in the average global temperature, ΔTAvg, in deg. Celsius are calculated in accordance with this principle, measured in kg·m-2, the average accuracy of which is ±0.14%, when compared to the variable annual, 1880 - 2019, average global temperature record;
Highlights
IntroductionThe changes in the concentration of water vapor, ∆TPW, (the difference between the total rate of average global evaporation compared to the total rate of average global precipitation, over the same time period), drive changes in water vapor surface heating, ΔWV, which in turn drive changes in the concentration of water vapor
As shown below, the changes in the concentration of water vapor, ∆TPW, drive changes in water vapor surface heating, ΔWV, which in turn drive changes in the concentration of water vapor
Equation (5) is advanced as The Principle of Climate Physics accounting for climate change, which demonstrates that: a
Summary
The changes in the concentration of water vapor, ∆TPW, (the difference between the total rate of average global evaporation compared to the total rate of average global precipitation, over the same time period), drive changes in water vapor surface heating, ΔWV, which in turn drive changes in the concentration of water vapor. This can, continue in an autonomous positive feedback loop. Appropriate solutions found and implemented, this is an ever increasing potential threat to humankind. Deduct the percentage of total heating that drives evaporation and thermal convection and, given that the average surface radiation, RadU, cannot exceed the remaining net heating, NaH, for small changes in net heating, the change in the average surface temperature from temperature To is,
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