To think there was sufficient thermalcapacity in the system and it wasn't used is angering to me, he said.
2
BEE said an expansion could cure that problem, but could not happen as long as Germany is oversupplied with thermalcapacity.
3
California's plan is a 14-fold increase over current global solar thermalcapacity, the report said, illustrating the technology risk inherent in the buildout.
4
Maximising thermalcapacity where the sun heats a material during the day is trickier, because it relies on good design at the outset, he says.
Ús de heat capacity en anglès
1
He is mostly water, which has ten times the heatcapacity of any metal.
2
I didn't know the heatcapacity of the surrounding rock, or its boiling point.
3
It relies on gallium nitride, a hard, stable material with a huge heatcapacity.
4
Furthermore, the binding heatcapacity change was identified from the ITC data at various temperatures.
5
The specific heatcapacity of air is so poor that actually the heat dissipates really quickly.
6
The heatcapacity of wood ash is small.
7
These techniques are capable of providing variations in heatcapacity, mass and average bulk composition of materials only.
8
Comparisons between the Monte Carlo and mean-field theory results for the heatcapacity and adsorption isotherms are provided.
9
Calorimetric enthalpies, as well as the temperatures at maximum heatcapacity, were determined as a function of pH for each protein.
10
The aptamer binding showed a large negative heatcapacity change, which suggests that a large apolar surface is buried upon such binding.
11
Light absorption in graphene causes a large change in electron temperature due to the low electronic heatcapacity and weak electron-phonon coupling.
12
We show that evolution solved the enzyme's key kinetic obstacle-how to maintain catalytic speed on a cooler Earth-by exploiting transition-state heatcapacity.
13
This is where heatcapacity, thermal conductivity, toughness, strength, and elasticity play their secondary but no less crucial role in an armor system.
14
The results indicate that, at 25 degrees C, the binding of most peptides is an enthalpy-driven reaction associated with negative entropy and heatcapacity changes.