There is no one single answer to your question as various alloying materials will achieve this. There are also various forms of fatigue failure, for instance thermal and bending, which will be affected by what alloying material is present.
Some materials have negative temperature coefficients of resistance, and some have positive temperature coefficients. Carbon is an example of a substance with a negative thermal coefficient of resistance, so it's resistance will decrease as it gets hotter.
the metal or concrete might expand if it gets too hot and compress when it gets too cold.
The circuit will become an open circuit.
The electrical resistance of a light bulb increases when it is turned on As a resistor, the tungsten light bulb has a positive resistance coefficient. This means that the electrical resistance goes up when the filament becomes hot. For example, a 100 watt light bulb operated at 120 volts - it does not matter if it is AC or DC for this calculation - will have a resistance of 144 ohms when hot and draw .833 ampere. When cold the filament typically has a resistance of only 10 ohms which increases as the filament heats up.
I can answer it generally. The guages were set up to be the area of sheet metal required to get a certain weight. With thicker sheet metal, you don't need as much area to get to the weight, so the guage number is lower.
Cone cell fatigue is when the cone cell gets tired after looking at an object for so long.
she gets fatigue and
the third place winner gets the bronze metal.
the therminster will get hotter when the resistance is lowed
In hot metals the kinetic energy of electrons becomes higher and they move randomly so their movement in one direction becomes decreased so the conductance becomes decreased.
Resistance of a wire is inversely proportional to the square of its radius.
metal gets corroded by acid
it gets faster.
The metal that is the cathode gets coated during electroplating.
Depends - in the real world as a resistor gets hotter (current flowing through it) its resistance increases.
It contracts
aluminum metal gets the hottest, not aluminum foil, normal aluminum