The distribution of
observed period ratios sh... ▽ More About one - third of the ~ 1200 transiting planet candidates detected in the first four months of \ ik data are members of multiple candidate systems.
The distribution of
observed period ratios shows that the vast majority of candidate pairs are neither in nor near low - order mean motion resonances.
Not exact matches
Over a 3 - week
period, Hartman et al. (2007)
observed no changes in serum T, serum C or serum T - C
ratio in two groups who performed Olympic weightlifting training with the same volume allocated into either one or two sessions per day.
Thus if my formula holds, there is no conflict at all, and a 0.8 °C cooling during the LIA gives a drop of about 6 ppmv (which is
observed in the ice cores, with a 50 years lag), the increase of 1 °C in the
period 1850 - current gives ~ 8 ppmv increase, the rest is from the emissions, which nicely fit the curve with an incredible straightforward
ratio:
If we may assume that the short term CO2 / temp
ratio and the longer term
ratio are the same, then the 0.6 °C increase in the
period 1959 - 2004 has increased the CO2 level with 1.8 ppmv, while the
observed increase is 60 ppmv... Even if we use the long term
ratio (10 ppmv / °C for MWP - LIA), then the influence of temperature over the whole
period is only 6 ppmv.