All appliances and devices are rated in wattage. The wattage is derived from multiplying the source voltage times the amount of amperage that the appliance draws. The amperage drawn is governed by the internal resistance or impedance that the appliance or device has.
Electricity is sold by the utility companies by the kW hour. In other words how many 1000 watts does the appliance use in an hour. For example if a clothes dryer is rated at 4000 watts (or 4 kW) and operates for one hour exactly, your use would be 4 kw hours. This amount of use is registered on the watt meter that is on the side of your home.
The utility company has a specific monetary value that it charges for each kW/hr that you use, or as you put it "electricity used". Where I live the charge is .09 cents a kW hour.
So to say that an appliance "uses up electricity" is really a misnomer as nothing is used up. The voltage potential remains the same along with the constant draw in amperage due to the resistance of the appliance. You are only charged for the use of the electrical service when the device or appliance is in operation.
No, it is not safe to hook up a 110V appliance to a 480VAC outlet. The voltage difference is too high and can damage the appliance, cause a fire, or result in electric shock. It is important to always match the voltage requirements of the appliance with the electrical supply.
I believe you ment to say 'which element conducts electricity Cadmium or Sodium?'They both do. They are both metals.
The amount of energy used is really unrelated to voltage. The energy usage of a piece of equipment is related to the work done, and/or heat generated by that piece of equipment. Electrical power is equal to the voltage times the current (amperage). At 240 volts, the same amount of energy is produced using 1/2 of the current (amperage) draw than is required at 110 V. For instance, a 1200 watt appliance will require 10 amps of current at 120 V (120V x 10A = 1200W). The same appliance will require 5 amps of current to do the same job at 240 V (240V x 5A = 1200W). The energy usage (1200W x time) is the same in both cases.
It is called lightning.
Electrons orbits around the nucleus, which have neutrons and protons. When there is an imbalance of protons and electrons, it creates a static electricity. What I am trying to say is, nothing really special happens.
the current disappears!!:))
What I Really Meant to Say was created on 2001-03-26.
An electric device does not "use up" electricity, but rather energy. And strictly speaking, it doesn't "use up" energy, but transforms it from one form to another. It is common to say that energy is used up when it is transformed to less concentrated forms--when it is degraded. Electrical energy ultimately becomes heat energy. In this sense it is used up. ------ I have a washing machine - I think it's a typical appliance - it uses electricity and water. But it does not "use up" any electricity or water - there is always more. Same for all of our other appliances. The clothes washer (above), dryer (gas and electricity), dish washer (water and electricity), microwave (only electricity). Popcorn maker (only electricity), toaster (only electricity), refrigerator (only electricity). Really, what these appliances "use up" is counter or floor space, especially the big ones.
Its mean to like someone or you can say love.
the singer is Cyndi Thompson the song is called "what i really meant to say"
I would say Obama! Not being funny, but really.
An electrical appliance will only operate at its rated power at its rated voltage. If that rated voltage is, say, 230 V, and the appliance is operated at 180 V, then it will operate at a substantially-reduced power.Since energy is the product of the appliance's power and the time for which it is operated, then the amount of energy used will be reduced and the energy bill will be reduced accordingly.
It's Cold by Crossfade. (=
What you say is I really like you only as a friend. That he's a great guy and all but it isnt meant to be.
What I Meant to Say was created on 1995-10-23.
"what I meant to say" is 'ce que je voulais dire, ...' in French.
Electricity takes the path of least resistance - That is to say most of the electricity takes the path of least resistance.In this case the short circuit will have an incredibly low resistance, and the vast majority of the electricity will bypass your appliance, causing no damage (to the appliance) at all. However where the short circuit occurs on the cable one will find burning marks and heat damage, perhaps even part of the metal has been vaporised leaving a hole or melting mark on the metal of the wire itself.There is also a very good chance the fuse will break inside the plug top and that circuit breakers* will trip in your board.*Breakers because the fault current may be large enough in a short circuit to trip your main circuit breaker and not just the breaker for the circuit the appliance is plugged into, this however is rare.