diff --git a/Can-Pc-Chips-Be-Air-conditioned%3F.md b/Can-Pc-Chips-Be-Air-conditioned%3F.md
new file mode 100644
index 0000000..b159661
--- /dev/null
+++ b/Can-Pc-Chips-Be-Air-conditioned%3F.md
@@ -0,0 +1,9 @@
+<br>Liquid cooling techniques in PCs use water or different coolants to absorb heat from components, which is more efficient and quieter than traditional air cooling. The system consists of parts akin to pumps, radiators, reservoirs and tubing, functioning similarly to a automobile's cooling system. Liquid cooling is especially useful for top-performance or overclocked computers the place heat era exceeds the capabilities of customary air-cooling methods. Whether or not you are using a desktop or laptop pc, there's an excellent probability that should you stop what you're doing and listen fastidiously, you'll hear the whirring of a small fan. If your pc has a high-end video card and many [processing](https://www.wonderhowto.com/search/processing/) energy, you might even hear more than one. In most computer systems, followers do a reasonably good job of preserving electronic parts cool. However for individuals who need to use excessive-end hardware or to coax their PCs into working sooner, a fan won't have enough power for the job. If a computer generates a lot heat, liquid cooling - also known as water cooling - may be a better solution.<br>
+
+<br>A liquid-cooling system for a Computer works a lot just like the cooling system of a car. Both take advantage of a fundamental precept of thermodynamics - that heat moves from warmer objects to cooler objects. Because the cooler object gets hotter, the hotter object gets cooler. You can expertise this precept firsthand by putting your hand flat on a cool spot in your desk for a number of seconds. When you carry your hand, your palm can be a little cooler, and the spot the place your hand was shall be a little bit hotter. Liquid cooling is a very common process. A automobile's cooling system circulates water, often blended with antifreeze, through the engine. Hot surfaces within the engine heat the water, cooling off in the process. The water circulates from the engine to the radiator, a system of fans and tubes with plenty of exterior surface space. Heat moves from the new water to the radiator, inflicting the water to cool off.<br>
+
+<br>The cool water then heads back to the engine. At the same time, a fan moves air over the surface of the radiator. The radiator warms the air, cooling itself off at the same time. In this manner, the engine's heat moves out of the cooling system and into the encircling air. With out the radiator's surfaces contacting the air and dispelling the heat, the system would just move the heat around as a substitute of getting rid of it. A automotive engine generates heat as a byproduct of burning fuel. Computer elements, alternatively, generate heat as a byproduct of moving electrons around. A pc's microchips are stuffed with electrical transistors, that are basically electrical switches that are both on or off. As transistors change their states between on and off,  [Memory Wave brainwave tool](http://cast3d.co.kr/bbs/board.php?bo_table=STLMALL&wr_id=78810) electricity strikes around within the microchip. The more transistors a chip accommodates and the faster they modify states, the hotter the microchip will get. Like a automotive engine, if the chip gets too sizzling, it would fail.<br>
+
+<br>Most computer systems dispel heat with heat sinks and followers. Heat sinks are mainly pieces of steel that provide a lot of surface space for the air to touch. The microchip warms the heat sink, the heat sink warms the air, and the fan moves the warm air out of the Laptop case. This system works more often than not, however sometimes, electronic parts produce extra heat than easy air circulation can dispel. High-end chips with a number of transistors can overwhelm an air-cooling system. So can chips which were overclocked, or manually set to work faster than their default speeds. Water has a higher thermal conductivity than air - it may well transfer heat faster than air can. Water also has a better specific heat capability. It might absorb extra heat before it starts to feel hot. Its electronic parts produce more heat than the air round them can absorb. The fans required to maneuver enough air to cool all of the elements make an excessive amount of noise or use a lot electricity.<br>
+
+<br>The components inside your computer need more cooling than air alone can provide. You need your system to be quieter. Many users improve their cooling programs as a way to deliberately overclock their CPUs or GPUs, but beware. Continuously exceeding producer specs can void element warranties and result in long-time period reliability points, even with further cooling. Next,  Memory Wave we'll look at the parts of a liquid-cooled system and the way they work collectively. Many electronic components do not tolerate direct contact with liquid. So as a substitute of using channels to pump liquid immediately by microchips as in a automotive engine, a liquid-cooled Laptop uses water blocks. A water block is a chunk of heat-conductive steel, like copper or aluminum,  [Memory Wave brainwave tool](https://azbongda.com/index.php/Different_Types_Of_Recollections) that's filled with hollow tubes and channels. The bottom of the water block is a flat piece of steel that sits directly on high of the chip being cooled. Thermal paste between the chip and the block improves the heat switch between the 2 surfaces.<br>
\ No newline at end of file