A liquid cooling system for the graphics processing unit (GPU) of a computer consists of a small copper chamber with an

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A liquid cooling system for the graphics processing unit (GPU)
of a computer consists of a small
copper chamber with an area of 3 x 3 cm that is bonded with thermal
paste to the GPU. The chamber
is cooled by forcing the coolant (assumed to be water) through the
chamber by means of a pump. The
coolant flows in a closed loop path through the chamber and then
through external pipes to a fluid
reservoir and a radiator where the heat is extracted and ejected
from the computer. The wall of the copper
chamber is maintained at 60 degrees Celsius, and the water in
the system is 60 degrees Celsius.
The convective heat transfer coefficient for the coolant
at
the selected pump speed is estimated to be 2500 W.m-2K-1.
a) Determine the amount of energy in kJ that the radiator
emits.
b.) Imagine that the pump stops working, which then lets the GPU
heat the coolant to 100 degrees Celsius. Determine the pressure
inside the static chamber.
Please show work