If the room is too hot, cool air cannot enter the computer and keep temperatures from rising too high. If the yeast would respire aerobically in the air, there would be no change in pressure, as the oxygen would be consumed at the same rate as carbon dioxide is produced.
When you apply heat, the atoms vibrate more quickly and collide more often to increase the rate of diffusion.
In addition, slowdown is a result of overheating. Even raising the temperature by 1 or 2 degrees Centigrade can produce an increase in the chemical reaction by 10 to 20 percent. Overheating Laptop and desktop computers are vulnerable to overheating.
Therefore, the laptop needs to be at or close to room temperature before powering up. That will speed up the rate of reaction.
This is the reaction rate of your body when you are outside in warmer temperatures. Laptops should operate between 50 and 95 degrees.
The sensitivity of the components means that even a small fluctuation in voltage is dangerous. Cold Temperatures Cold temperatures are not as dangerous to a computer as overheating is, but problems can still occurs.
Excessive heat lowers the electrical resistance of objects, therefore increasing the current. Summary Increasing the temperature increases reaction rates because of the disproportionately large increase in the number of high energy collisions.
Rapid expansion, when close to matter that remains the same size, it distorts it.