Max Temperature Peak: Global vs Local Energy Source

AI Thread Summary
When a localized energy source, such as a laser, heats a system at a global temperature, it creates a maximum temperature peak. The change in temperature from this peak to the global temperature can vary based on the global temperature itself. Increasing the global temperature while keeping the energy input constant does not guarantee the same delta temperature. This is due to the fact that heat capacity and heat conductivity are not constant across different temperatures. As the global temperature rises, the change from global to maximum temperature is likely to be greater, influenced by the system's thermal properties.
porcupine6789
Messages
17
Reaction score
0
Ok, so say I have a system at a global temperature, I add an energy source (laser in this case) and it heats the system in a localized area. This leads to a maximum temperature peak in the system. Then you can get out a change in temperature from this maximum to the global. OK, now my question is say in increase the global temperature and keep the power source the same, would I expect to find the delta temperature to be the same for small global temperatures, or would I expect to find that the change from global to max is greater when the global temperature is greater. Hopefully that made some sort of sense.
 
Chemistry news on Phys.org
If you don't mind me rephrasing it, I think you're asking:
"Does adding a given amount of heat to a system always raise the temperature by the same amount? (Locally before equilibration and globally after it's equilibrated)"

The answer would be no. The heat capacity (change of temperature per unit of heat energy) is not usually constant with temperature, nor is the heat conductivity (which together with the heat capacity would determine the maximum temperature peak during heating).
 

Thread 'Humidity of a saturated NaCl solution with anticaking additive'

I want to test a humidity sensor with one or more saturated salt solutions. The table salt that I have on hand contains one of two anticaking agents, calcium silicate or sodium aluminosilicate. Will the presence of either of these additives (or iodine for that matter) significantly affect the equilibrium humidity? I searched and all the how-to-do-it guides did not address this question. One research paper I found reported that at 1.5% w/w calcium silicate increased the deliquescent point by...
View full post »

Similar threads

What is the true meaning of temperature? Is it global or local?
Replies
10
Views
2K
I Density fluctuations in a homogeneous linearly expanding universe?
Replies
7
Views
2K
Complete thermal decomposition of specific compounds
Replies
4
Views
3K
I Consequences of the absence of global symmetries...?
Replies
6
Views
3K
I A paradox about energy balance and steady state
Replies
2
Views
2K
The relationship b/w infrared, temperature, and electron excitation
Replies
11
Views
3K
What influences ignition temperature and oxygen consumption
Replies
4
Views
2K
Phase changes, change of entropy is temperature independent
Replies
21
Views
7K
A How to calculate the temperature change of a laser-irradiated material
Replies
6
Views
3K
Why is it more efficient to get thermal energy from a higher temperature source?
Replies
16
Views
2K

Hot Threads

Recent Insights

Back
Top