Where does heat energy go when dissipated in metal?

AI Thread Summary
When heat is dissipated in metals like aluminum, the potential energy stored in heat transforms into kinetic energy, causing atomic vibrations. This process spreads the heat over a larger volume, leading to a temperature decrease at the original point and an increase in the metal. Heat sinks are crucial in electronics, preventing overheating of components like power transistors by effectively managing heat dissipation. While there isn't a super efficient method to capture the kinetic energy from heated atoms, various heat engines, such as steam engines and jet engines, convert heat energy into mechanical or electrical energy. Overall, the dissipation of heat in metals plays a vital role in thermal management and energy conversion.
Kyle Gray
Gold Member
Messages
2
Reaction score
0
When heat is dissipated into a piece of metal(aluminum for example), what happens to the potential energy that was stored in the heat? Does it transform into another form of energy or is it absorbed by the atoms of the metal element?
 
Science news on Phys.org
Dissipation means that heat concentrated in a small area gets spread out into a larger area.
The energy hasn't gone away it is just contained in a larger volume
Hence the temperature at the original point falls, while it rises in the material the heat was dissipated into.
This how heat sinks work in electronic equipment.
Power transistors generate a lot of heat and would quickly burn up without a heat sink.
 
It turns to kinetic energy, which makes the atoms it's made of vibrate faster.
 
rootone said:
Dissipation means that heat concentrated in a small area gets spread out into a larger area.
The energy hasn't gone away it is just contained in a larger volume
Hence the temperature at the original point falls, while it rises in the material the heat was dissipated into.
This how heat sinks work in electronic equipment.
Power transistors generate a lot of heat and would quickly burn up without a heat sink.
I would like to know if there is a super efficient way to capture the kinetic energy from the atoms as they heat up?
 
I don't know of a super efficient way, but there are many examples of heat engines which do useful work by converting heat energy to another form.
A steam engine is the most basic, converting (some of) the heat to mechanical energy.
Then there are jet engines which convert heat energy to a linear thrust force.
Power stations use heat to spin turbines resulting in production of electrical energy.
 

Similar threads

Help understanding "Heat capacity"
Replies
28
Views
3K
I How Does Heat Transfer Impact Our Sensation of Temperature?
Replies
23
Views
2K
Heat Transfer Q&A: Sun, Metal Heat Sinks, & Conductivity
Replies
2
Views
2K
I A paradox about energy balance and steady state
Replies
2
Views
2K
Air conditioner without heat output - Is it possible?
Replies
17
Views
3K
I Trying to wrap my head around gas turbine thermodynamics
Replies
5
Views
3K
How does evaporation generate cooling? Swamp coolers edition
Replies
32
Views
3K
What is the mechanism of heat transfer and air flow in coffee roasters?
Replies
1
Views
3K
I Change in the size of a hole in a constrained metal when heated
Replies
9
Views
714
Fluid going through pipe: what is the influence of speed on exchanging heat?
Replies
4
Views
16K

Hot Threads

Recent Insights

Back
Top