Removing thermal energy (or, to be accurate INTERNAL energy since in thermodynamics thermal energy is a deprecated term) will usually cause it to get cooler. If it is near a phase boundary it may, instead cause some of it to change phase (solidify from liquid for example).
Since electrical resistance is dependent on temperature, it will also lower the electrical resistance.
The temperature at which liquid gold solidifies is the same as its melting point, 1064 °C. Generally, the melting point and freezing point for a pure substance are the same. If thermal energy is added to the substance, it will melt. If thermal energy is removed from the substance, it will freeze.
because gold have a native energy but iron does not have that native energy
Gold is almost everywhere, the problem is the cost of extraction, or return on the dollar invested. Even with Gold at record highs, only a few areas are worth the cost of removing the gold from the slag.
you die
ALL metals are pretty good conductors of heat. Some, like gold, are very good conductors of heat.
More or less everything conducts thermal energy, but to different degrees.
The temperature at which liquid gold solidifies is the same as its melting point, 1064 °C. Generally, the melting point and freezing point for a pure substance are the same. If thermal energy is added to the substance, it will melt. If thermal energy is removed from the substance, it will freeze.
Gold and copper are good thermal and electrical coductors.
Any material which has high thermal conductivity can easily transfer energy as heat. As far as I know, all metals have high thermal conductivity. Copper, gold and silver especially have high thermal conductivity. Diamond and graphene have VERY high thermal conductivity, so this is not restricted to only metals.
No they wouldn't, this refers to specific heat capacities. Generally, gold has a lower heat capacities than of water, thus it takes less energy to change the temperature of gold than it does to change the temperature of water. So if you add the same amount of heat to both systems of water and gold, the gold will be hotter than the water.
I font know but I’m doing physics hw rn and am confusion
The energy cost of gold is 88,184,905
When we consider the two elements gold and lead, we find that gold has a (ball park) thermal conductivity of about ten times that of lead. If you guessed that gold is about ten times as good a conductor of electricity as lead (based on the information presented regarding thermal conductivity), you'd be on target. In general, thermal and electrical conductivity both "track" from metal to metal. Good electrical conductors are generally good thermal conductors.
bluewater or westfield
The energy cost of gold is 88,184,905
Removing all of the impurities in the 10 karat gold will leave you with 24 karat gold.
Gold is a really good conductor. Technically, because gold is an excellent reflector of infra-red it can be used as thermal insulation.