why does a conductor of heat fell cooler than an insulator
Answers
Explanation:
In general, metals feel colder or hotter to the touch than other materials at the same temperature because they're good thermal conductors. This means they easily transfer heat to colder objects or absorb heat from warmer objects. Your skin can't actually detect the temperature of other objects—it only senses its own temperature. When you touch a piece of metal that is colder than your hand, your fingers rapidly lose heat and feel cold—and the opposite happens when you touch metal that is hotter than your hand. Thermal insulators like plastic and wood don't transfer heat as easily.
Some metals may also get hotter faster compared to other materials. Metals tend to have a small specific heat capacity, which is a measure of how much energy needs to be added to a material to raise its temperature by 1 degree. A material with a smaller heat capacity will reach a higher temperature after the same amount of energy is added compared to a material with a larger heat capacity. Polyethylene, a common plastic, has more than twice the heat capacity of most metals. Water also has a very large heat capacity.
Explanation:
cience content: Thermal Conduction
Objects having differing temperatures try to come into equilibrium, by moving energy from the warmer to to cooler one. There are several different ways to transport the energy:
Conduction through a material
Convection of a fluid (a gas or a liquid)
Radiation of light
Changes of phase: evaporation or melting
These are called heat transfer processes. They are different ways to move energy from one place to another. This section is about conduction; convection, radiation, and change of phase will be studied in other sections.
Conduction of thermal energy takes place within matter (which can be in solid, liquid, or gaseous form). The energy moves through the material without the material itself moving noticeably. We should distinguish three ranges of thermal conductivity:
Metals are generally good thermal conductors, for the same reason that they are generally electrical conductors: they contain electrons that can move independently of the atoms, carrying both charge and energy. So if one side of a metal rod is hot, thermal energy from that side is carried quickly by electrons to the other side, making it hot, too.
Thermal conduction also takes place in materials that are not electrical conductors. In nonmetallic materials, it takes place by a sort of bucket-brigade: when one side of an object is warmer than the other, it contains more thermal energy, and the small scale (invisible) vibrations of the material are larger there. The motion of one region gives rise to motion in neighboring regions, and in this way the energy moves from place to place. This method of moving energy around is 100 times slower than what happens in a metal, but the thermal conduction through a solid material like glass is still appreciable: that is why we use double pane glass, storm windows, and curtains when it is important to keep the house warm.
Air and other gases are poor thermal conductors. There's very little matter there, and the bucket brigade doesn't have very many buckets.
Thermal conduction of energy from one object to another requires that they be in contact.
Metals are cool to the touch because they are good conductors of thermal energy. Our body temperature is fixed, and usually well above that of our environment and the objects in the environment. When we touch a object that is cooler than we are, it quickly conducts energy away, leaving our hand feeling cool. Stone and glass are better thermal conductors than air, and so they feel cold, too. This works the other way when we encounter a sun-warmed seat belt buckle -- now energy flows from the metal, again because it is a good conductor, to us, and if it's really hot, we get burned.
The opposite of a thermal conductor is a thermal insulator. An insulator is a very poor conductor. Because we are warm-blooded (and like to stay warm), insulators are important. When we touch a cool piece of foam insulation, it does not take energy away from us because it is not a good conductor. It may be very cold, but it does not feel very cool because it does not remove energy from us quickly.
Thermal conduction requires the presence of matter, and so the very best insulator is vacuum. Sometimes this is used -- a thermos bottle is a double bottle with vacuum between them.
Air and other gases are good insulators, because their density is low (so there isn't much material present to transport the energy). Most of the materials we use for insulation are really just air held in place: fur, hair, feathers, styrofoam, double-pane glass and storm windows, and woven cloth are all examples of this idea.
As you step out bed in the morning, what would you like your warm feet to meet? A good conductor, like a tile floor, or a poor conductor, like a rug? The difference is in how rapidly they will carry away energy.