No? Ask those electrocuted in the electric chair.
Our body is 70% water and with enough current intensity it will boil and evaporate. If the current is DC, the water will also separate into H and O (electrolysis) in the process.
The result is charred flesh.
Do not even think in playing with electricity. It will kill you or whomever is around you.
Heat conduction, by means of particle collisions transferring energy.
10 awg
A cold magnet attracts more than a hot magnet. This helps the flow of electricity which therefore helps the electric field, which therefore helps the magnetic field. They use cold magnets to power the LHC which collides hydrogen atoms. Obviously the cold magnet is very attracting.
depends on whether thermo used on gas or elec. unit, heat pump, strip heat, etc. red wire is hot wire. White wire goes to heat. yellow wire goes to outdoor unit contactor. green wire goes to indoor fan. blue or brown wire goes to reversing valve on outdoor unit.
It's all Physics. The basic fact is that when you pass enough electricity through Nichrome wire it will get hot from its electrical resistance . Also different toasting levels take different heat and/or time to accomplish.
When an electric current passes through a wire, the wire gets hot because the flow of electrons in the wire encounters resistance, which causes the electrons to collide with atoms in the wire, generating heat as a byproduct of this interaction.
a hot wire emits electrons just like any other wire would. It is through the flow of electricity. Its the exact same thing. Good question though
Because the electrons in it are moving about. This is similar to what happens when you run about, you become 'hot'.
A hot wire in electricity refers to a wire that carries an electric current and becomes hot due to the flow of electricity through it.
A wire gets hot when an electric current flows through it, causing resistance in the wire which generates heat.
The lamp wire is hot because electrical current flowing through it encounters resistance, which causes the wire to heat up.
The electrons from the battery go through the wiring to the bulb. Inside the bulb, they heat a tungsten wire so hot that it glows, giving off light.
In covalent compounds the electrons are bonded to the atoms, so they cannot move outside the molecule. When ionic compounds like NaCl are dissolved in water, they produce positive and negative ions that can be attracted to the opposite terminal of a battery, so electrons flow off of the negative ions thru the wiring, thru the light bulb and back into the salt water and onto the positive ions. [Click on the related link to see the image] The circle with a wave inside represents a battery. In metals like Al and Cu, the electrons are not bonded to one molecule. They are free to move all around the wire. If you were to take the same light bulb, battery and electrodes and use a copper wire to connect the electrodes, the bulb would light. The voltage of the battery forces electrons on one end of the wire. This produces more electrons than protons in the metal wire. Since the electrons are free to move, electrons will move off the other end of the wire and thru the bulb, causing the wire filament in the bulb to get so hot that it glows.
The electrons in the current have a lot of energy due to the tiny electric force on each one and the very large number of electrons involved. As they move from atom to atom in a metal conductor, some of this energy redistributes to the metal atoms. This energy causes the conductor atoms to move faster, which means they get hotter, and the heat flows to the surface of the iron.
Because the wire has resistance.The power (number of watts) dissipated by any resistance when current passes through it is(the number of amperes of current)2 multiplied by (the number of ohms of resistance).To reduce the power lost from the wire, the choices are:-- reduce the current passing through the wire-- use thicker wire-- keep the wire as cold as possible.(If the wire is made of the right material, and you make it cold enough,then all of its resistance disappears, and it's called a "superconductor".)
Wires get hot because of the resistance they have to the flow of electricity. When electricity passes through a wire, some of the energy is converted into heat due to the resistance of the wire material. This heat can cause the wire to become hot, especially if a large amount of electricity is flowing through it.
One can purchase a hot wire cutter through various stores that sell electrical appliances. There are equally some online stores that sell hot wire cutter like, amazon.