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It is possible to under clock the CPU through the system BIOS. this slows the CPU, but helps protect from heat damage. Some types of software applications can also change the clock.
The steel of the spring is tempered with heat so that it maintains its shape. If it is bent, it will spring back to it's original shape, when the bending force is released. A clock spring uses this material, twisted into a spiral. When the twisting force is removed, the steel tries to return to it's original shape. Being wrapped in a spiral, this results in a rotational force. One end of the clock spring is anchored to the chassis of the clock and the other is attached to a shaft. As the spring unwinds it causes the shaft to rotate. This rotation will cause a gear wheel attached to the shaft, to turn other gears and can then be controlled by an escapement.
Definately spring steel can be heat treated and it has to be heat treated before it can be functioned as a spring. The common way to heat treat spring steel is by quenching and tempering.
Yes, absolutely, heat can damage coatings.
Are you trying to heal or inflict nerve damage?
A case can prevent sun damage to your device,but it will not stop heat.
You need a furnace expert to come and inspect it and tell you the answer.
The Heat with Mark McEwan - 2006 The Clock Is Ticking - 3.11 was released on: USA: 20 May 2010
The cast of Late Spring Heat - 2009 includes: Josh Johanpeter Holly Voges as Mila
A wind up clock contains potential energy stored in a spring. That elastic potential energy is used to move the hands of the clock and otherwise power its operation which might include making an alarm ring. The energy in the spring primarily is used to overcome friction (producing heat) in the internal mechanism, but technically a small amount of kinetic energy is contained in the moving hands and a small amount of energy is converted to sound waves if an alarm sound is created. To get energy into the spring, work was done on it. (Work is force times distance.) Force winds the alarm and that force is applied for a distance and in the direction of motion, even if that direction changes and it ends up being circular as in twisting a key to wind a spring. Apart from frictional forces opposing the winding, the work goes into the spring which gains potential energy. (Friction in the winding process produces some heat, so a careful accounting would put work done equals frictional heat energy plus spring potential energy. Work done equals change in the energy of the system.)
A wind up clock contains potential energy stored in a spring. That energy is used to move the hands of the clock and otherwise power its operation which might include making an alarm ring. The energy in the spring primarily is used to overcome friction (producing heat) in the internal mechanism, but technically a small amount of kinetic energy is contained in the moving hands and a small amount of energy is converted to sound waves if an alarm sound is created. To get energy into the spring, work was done on it. (Work is force times distance.) Force winds the alarm and that force is applied for a distance and in the direction of motion, even if that direction changes and it ends up being circular as in twisting a key to wind a spring. Apart from frictional forces opposing the winding, the work goes into the spring which gains potential energy. (Friction in the winding process produces some heat, so a careful accounting would put work done equals frictional heat energy plus spring potential energy. As stated above, work done equals change in the energy of the system.)
they are in heat in July only at certain times