Check out this site where it’ll show you a cool trick that actually TRIPLES your PC’s performance!
The Ultimate CPU Overclocking Guide!
Visit pcwizkid.blogspot.com for more details. If you are looking for a light CPU cooler thats for keeping a Media PC or a mini tower case cool we review today a combo of both a Cooler and the SusCool 121 Thermal fan from SilverStone.
Those temps suck because of the method you put the thermal paste on with.
If you do the pea method you will get much lower temps because there will be no air bubbles
I got a cheapo (and huge) Buffalo cooler and I get 40oC under full load (@25oC room temperature).
THAT THING IS GINORMOUS !!!
is it a 120mm fan
only 430 grams without fan, only. yeah that’s like nearly a pound, most motherboards are only rated for about 400g heatsinks with fan.
sir what camera are you using its so crisp and clear sir i love it!
what happens if the fan is placed "in the middle"?
I mean, attached on the other side in a way that air leaves away the processor? Would this work?
Will this work on AM3??
0h love to you
i dont think you can put some corsiar dominator rams in it with that cooler ^^LOL
i dont think you can put some corsiar dominator rams in it with that cooler ^^LOL
a have the cosair dominator memory with heat fins, i really like this cooler will it fit?
a have the cosair dominator memory with heat fins, i really like this cooler will it fit?
@JaksProductions
plenty
@JaksProductions
plenty
DO NOT WANT!!!!!!
DO NOT WANT!!!!!!
oi
its not a bad desigh with the star trek interprise ship hahaha
but i wouldnt get this
your post ot have the heat away form your mobo ram and other things
but this pushs all that heat from your cpu to all your other thigns on your board so yeah its a bad desigh on where the hot hot hot air goes
if your builing a good gaming then this till heat up your gpu ram NB and SB bad bad heatsink
the end
oi
its not a bad desigh with the star trek interprise ship hahaha
but i wouldnt get this
your post ot have the heat away form your mobo ram and other things
but this pushs all that heat from your cpu to all your other thigns on your board so yeah its a bad desigh on where the hot hot hot air goes
if your builing a good gaming then this till heat up your gpu ram NB and SB bad bad heatsink
the end
Well what do you expect. It’s small lol. But I see what you mean.
Well what do you expect. It’s small lol. But I see what you mean.
nice cooler for space but not on heat side
nice cooler for space but not on heat side
@PCWizKid I have a coolermaster HAF 922 , is it big enough? :/
@PCWizKid I have a coolermaster HAF 922 , is it big enough? :/
@JaksProductions yes, its not the board you should be worried about its the case
@JaksProductions yes, its not the board you should be worried about its the case
I have a micro-ATX motherboard, will it fit?:/
I have a micro-ATX motherboard, will it fit?:/
heat from the CPU is stored in the smaller surface area fins right around it. And it’s important to note that you are not blowing air onto the CPU, you are blowing it onto the fins right around it, and even with the hot air, the air is cooler than that CPU area and will therefore still absorb heat, though less effectively. Again, though, the amount of heat stored there compared to the main fins is negligible.
heat from the CPU is stored in the smaller surface area fins right around it. And it’s important to note that you are not blowing air onto the CPU, you are blowing it onto the fins right around it, and even with the hot air, the air is cooler than that CPU area and will therefore still absorb heat, though less effectively. Again, though, the amount of heat stored there compared to the main fins is negligible.
the same temperature as the heatsink.
So, fresh intake will provide cooler air molecules, which will in turn more quickly absorb more heat from the fin apparatus of the heatsink, which is where the largest surface area and the largest amount of heat is. So a fresh intake will definitely cool the CPU more effectively, and the fact that hotter air is blown on to the CPU (if you set it up that way…it’s actually meant to suck air out) makes a relatively negligible difference because much less
the same temperature as the heatsink.
So, fresh intake will provide cooler air molecules, which will in turn more quickly absorb more heat from the fin apparatus of the heatsink, which is where the largest surface area and the largest amount of heat is. So a fresh intake will definitely cool the CPU more effectively, and the fact that hotter air is blown on to the CPU (if you set it up that way…it’s actually meant to suck air out) makes a relatively negligible difference because much less
such a way as to reach thermal equilibrium. Basically, the air molecules and the metal that it collides with want to be at the same temperature, and heat will flow from the fins to the air molecules in order to try to reach equilibrium. Fresh air is supplied, so the heatsink fins are constantly presented with molecules that want to absorb its energy. The colder those air molecules are, the more heat energy they will absorb, because more heat energy is needed to make them reach
such a way as to reach thermal equilibrium. Basically, the air molecules and the metal that it collides with want to be at the same temperature, and heat will flow from the fins to the air molecules in order to try to reach equilibrium. Fresh air is supplied, so the heatsink fins are constantly presented with molecules that want to absorb its energy. The colder those air molecules are, the more heat energy they will absorb, because more heat energy is needed to make them reach
Intake does absolutely make a difference. The point is to cool the fins as effectively as possible. The "hot" air that everyone’s worried about coming back on to the CPU doesn’t do much, because the fins attached to the CPU are a relatively small surface area compared to the entire heatsink.
The fins are the most important place to dissipate the heat from, and it’s done by convection. Air molecules collide with the surfaces of the fins; they are then in thermal contact and naturally behave in
Intake does absolutely make a difference. The point is to cool the fins as effectively as possible. The "hot" air that everyone’s worried about coming back on to the CPU doesn’t do much, because the fins attached to the CPU are a relatively small surface area compared to the entire heatsink.
The fins are the most important place to dissipate the heat from, and it’s done by convection. Air molecules collide with the surfaces of the fins; they are then in thermal contact and naturally behave in
Don’t think the Hyper X T1′s will fit underneath that thing
Don’t think the Hyper X T1′s will fit underneath that thing