Not exact matches
this is very similar to what we call Chikki... a sweet treat in western india... readily available in Bombay / Mumbai... and also in indian stores here in the US... u can use jaggery... other kinds
of sugar... or even some honey to mix in the syrup... for the nuts u can use cashews, almonds, seasme seeds instead or in combination with peanuts... u could try experimenting with
different layers of thickness... and even try a mould that would make it look more like a hersheys bar... easier to break off without creating too many crumbles
Heat Seal / Hot Tack Modeling: Considers
different film
thicknesses and multiple
layers, and predicts performance
of ionomer films on high - speed packaging lines.
Synchrotron X-ray imaging on
different species showed that the transmission
of the sound from the oral cavity to the inner ear has been optimized by two evolutionary adaptations: a reduced
thickness of the tissue between the mouth and the inner ear and a smaller number
of tissue
layers between the mouth and the inner ear.
«The wafers are covered with silicon dioxide
layers of different thicknesses and are similar to those used in the semiconductor industry,» explained Karin Jacobs, Professor
of Experimental Physics at Saarland University.
Jacobs» team precisely measured the friction between silicon dioxide (SiO2)
layers of different thicknesses and the 200 - nm tip
of an atomic force microscopy probe by carefully scanning the tip across the wafer surface.
What the physicists discovered was surprising: although the uppermost
layer of the surface always consisted purely
of SiO2, the tip
of the atomic force microscope experienced
different frictional forces depending on the
thickness of the silicon dioxide
layer.
The research is also exploring the effect
of using
different organic spacer
layer thicknesses on the energy coupling.
This uniformity
of thickness on
different particle sizes in a particular batch is determined to be due to the difficulty
of removing residual water molecules from the powder during the purging cycle
of the atomic
layer deposition (ALD) process.
The Lots - o» - Huggin» Bear character has 3,473,271 individual hairs organized in several
layers of different length and
thickness.»
In some conditions, saturation can occur while holding temperatures steady, but the climate response can still change the fluxes — this won't generally add a significant net flux where optical
thickness has brought the net flux to zero, but it can change the net flux at TOA even if the effect
of optical
thickness has been saturated at TOA, and the climatic response could «unsaturate» the effect at TOA by creating a thinner
layer of different temperature.
Re 392 Chris Dudley — I don't understand what you mean by R ^ 2T ^ 4 — and there should be something about how optical depth is proportional to R, and also, if you're going a significant distance toward the center
of such an object, there is the issue
of spherical geometry; if the optical
thickness is large enough across small changes in radius, then you don't need to account for the spherical geometry in the calculation
of the flux per unit area as a function
of the temperature profile and optical
thickness; however, the flux per unit area outward will drop as an inverse square, except
of course within the
layers that are being heated through a
different process (SW heating for a planet, radioactivity, latent and sensible heat loss associated with a cooling interior, gravitational potential energy conversion to enthalpy via compression (adiabatic warming) and settling
of denser material under gravity (the later both leads to compression via increased pressure via increased gravity within the interior, and also is a source
of kinetic energy which can be converted to heat)...
In the tugging on the temperature profile (by net radiant heating / cooling resulting from radiative disequilibrium at single wavelengths) by the absorption (and emission) by
different bands, the larger - scale aspects
of the temperature profile will tend to be shaped more by the bands with moderate amounts
of absorption, while finer - scale variations will be more influenced by bands with larger optical
thicknesses per unit distance (where there can be significant emission and absorption by a thinner
layer).
There has not been an effort to put plausible error bars on the data, perhaps because it is already quite challenging to simply get it to line up, while interpreting the temperature implications
of different tree ring or sediment
layers thicknesses is inherently very ambiguous.
The
thickness of the ozone
layer depends upon the balance
of many
different processes.
The last graph, temperatures
of layers with
different thicknesses, is particularly misleading - the large rise in surface temperature (very little energy involved) shown over the deep
layer temperature changes (a huge amount
of energy) is a case
of apples / oranges.
There is nothing
different in comparison to the transmission
of heat through a wall or from a wall to a fluid through a boundary
layer: a loss
of the efficiency
of the transmission (increase
of the
thickness of the wall or
of the boundary
layer) is compensated by an increase
of the temperature
of the surface that yields the heat.