Fluorescence intensities were
plotted as a function of temperature by using an internally developed software package (Vedadi et al. 2006).
Not exact matches
We did an experiment where we made a video
of a Bunsen burner heating... a beaker
of ice and water (that was being stirred) and we
plotted the
temperature as a
function of time.
If one
plots temperature as a
function of pressure for a sequence
of increasing tau, the phenomenon is immediately apparent in cases where the upper level solar absorption is sufficiently strong.
Figure 2 (a) shows the regression reconstructed
temperature for 2014
plotted as a
function of model
temperatures in the preceding decade (2005 - 2014).
We have
plotted most likely peak
temperatures as a
function of four different cumulative emission metrics: year 1750 — 2500 (figure 3a), year 1750 to the time at which peak warming occurs (figure 3b), year 1750 — 2100 (figure 3c) and year 1750 — 2200 (figure 3d).
Blue light with an intensity
of one watt per square centimeter illuminates a thermal sensor coated with lampblack, and the
temperature increase is
plotted as a
function of time.
We can see the cycle shape by making a folded
plot (a.k.a. «phase diagram»), graphing
temperature not
as a
function of time but
as a
function of phase, i.e., time
of year (
as is customary, I've
plotted two full cycles
of phase:
Just
as the derivative f» (x) and second derivative f» (x) < / i) can tell you what's happening with the principal
function f (x) so too we can learn from
plots of the gradient
of the
temperature and the trend
of that gradient
as shown in the yellow line in the
plot at the foot
of my Home page at http://climate-change-theory.com
It would be interesting to
plot the efficiency
of condensation
as a
function of temperature along the pipe, i.e. how far from adiabatic it is, equivalently how much heat is transferred by a given amount
of condensation to the exterior
of the pipe.
It may be true that frequency, which relates more directly to photon energy, is the right way to do it; but then Wien's displacement law is always stated
as a product
of wavelength and
Temperature, and the Planck
function is often
plotted as a
function of the single variable lambda.T.