It draws heat away fom the object that is is being used on.
Try this DIY on removing a CPU/GPU heatsink...
A heatsink and fan is required. Without at least a heatsink, the processor would get way too hot in a very short period of time. This overheating of the processor could permanently damage it and render it useless.
Usually no, unless the box also comes with a heatsink. The paste will be on the bottom of the heatsink, not on the top of the processor.
Heatsink uses what they call passive cooling where as liquid cooling systems use active cooling.
It depends... Look up the heatsink in question to determine compatibility. It may require a new set of mounting hardware, but most heatsink manufacturers try to maximize compatibility.
your moma is my heat sink
Many heatsink and fan kits are compatible with both Intel and AMD sockets. Check the specifications carefully, though.
Depends on what they used if you remove the CPU heatsink you mite have to remove the CPU with it. If the heatcontact was a glue type then u cant without removeing the proccesor
No, this is a processor designed for laptop computers, so the heatsink and fan will have to be specific to your laptop. You can reuse the current equipment.
The CPU fan and heatsink mount function together to dissipate heat generated by the central processing unit (CPU) during operation. The heatsink absorbs heat from the CPU and increases the surface area for heat dissipation, while the fan enhances airflow over the heatsink to further facilitate cooling. This combination helps maintain optimal operating temperatures, preventing overheating, which can lead to performance issues or hardware damage. Proper mounting ensures efficient thermal contact between the CPU and heatsink, enhancing overall cooling effectiveness.
Some used a simple passive heatsink, or used parts of the computer's case itself to dissipate heat. Other required no heatsink at all.
Thermal compound rests between the CPU (heatspreader) and the heatsink, and is used to improve heat conductivity in areas where the two metal surfaces aren't completely flush.