the part of an electric circuit converts electricity into other forms of energy is called a load.
The load is the part that converts electrical energy to another form of energy
This depends on the type of energy we are changing to. If we change electrical to mechanical, it is a motor (rotary) or a solenoid (stroke). If we are changing to heat, it is a heater. If we are changing to light it is a lamp, LED, or similar. If we are changing to chemical it is a cell, or reactor. If we are charging batteries, it is a charger. If we are making sound, it is a speaker or bell or buzzer, etc. If we are converting to something readable it is a display. I think you get the idea. You could probably lump all of these into "converter", but I think that just creates a word so general as to be useless.
the part of an electric circuit converts electricity into other forms of energy is called a load.
The circuit element whose purpose is to convert electrical energy into another form of energy is the
a circuit changes into energy
no, it is an element therefore it cannot be electrical energy
The difference is that in a lumped element resonator, the circuit's elements are localized together. In a distributed element resonator, they are spread apart.
The wire in the cord has much lower resistance than the heating element. The heating element is a resistive or resistance heating element. Resistance in the quality of a substance or material that causes it to limit current flow, and it get heated up in the process. The heating element has all but the smallest fraction of the resistance in the circuit, so the heat, that thermal energy that get the water hot, is generated by the resistance of the heating element.
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Neither. Electricity is not a substance. Electricity is a kind of energy represented by the continuous movement of electrons from one atom to another, or the accumulation of a static electrical charge.
Electrical Circuit:An Electrical circuit is that which is a connection of conductive wires and other devices whereby the flow of electrons occurs.Electronic Circuit:An Electronic circuit is that which contains at least one active element in a single circuit; whereby the flow of electrons is controlled by another electrical signal. (either voltage or current)In short, an electronic circuit is that in which electricity controls electricity...
A passive element is an element of the electrical circuit that does not create power, like a capacitor, an inductance, a resistor or a memristor.
A resistor implements electrical resistance as a circuit element. It works in an integrated circuit by reducing current flow, and to lower voltage levels within circuits.
There is no element to heat to complete the circuit. Another example would be magnetic induction lighting.
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In a series type circuit, the electric current passes through each element of the circuit (light bulb or whatever) in sequence; it does not reach any element until it has first passed through all the earlier elements. In a parallel type circuit, every element of the circuit receives its electric current independently. A separate wire connects each element to the source of the current rather than to the previous element of the circuit.
The function of a light bulb in an electric circuit is that it turns electrical energy into light.
Either the bulb gets blown itself or the tungsten wire melts and opens the circuit, causing the light bulb to fuse.
The Dalton theory is not applicable to nuclear reactions.
Electrical circuits use fuses to prevent electrical overload to the circuit, and possible electrical fires stemming from the overloaded circuit. A household electrical system can be compared to your home's plumbing. Just as water is pressurized coming from a city's water supply, so is the electricity coming from your local utility provider. The pressure of current is "voltage." The current carrying capacity of electrical wires is "amperage." Just as larger wires can handle a greater capacity of water, so may larger guage/diameter wires handle greater voltage. When you go to your local hardware store, you buy wire based on its amperage. Your home is specifically wired according to the placement of appliances or items that use electricity. For example, the outlet behind your refrigerator is most likely a 20 to 30 amp circuit, as the refrigerator demands a greater volume of electricity to keep the items inside it cool. Whereas, the outlet in your bedroom may only be a 15 amp circuit, as the items you plug into it may be a lamp or clock radio, which do not demand as much electricity as a refrigerator. All the electrical circuits in a home begin at a fuse box. The city's power supply is routed into your home's fuse box. In the fuse box, the electricity is distributed to all the electrical circuits in your home. At the beginning of each circuit is a fuse or circuit breaker. The amperage of a fuse or circuit breaker is based upon the demand of power each circuit must serve. The fuse for the circuit that powers your refrigerator is of a greater amperage than the circuit that powers the lamp next to your bed. Inside each fuse is metal element that melts when the circuit is overloaded and gets too hot. The element in a 15 amp fuse melts at lower amperage than would the element in a 30 amp fuse. If you attempted to plug your kitchen's refrigerator into the outlet in your bedroom, the circuit would get too hot, and back at the fuse box, the element in the fuse at the beginning of that circuit would melt or "blow". This essentially breaks the circuit, stops the flow of electricity, keeps the wires in that circuit from overheating, and helps to prevent electrical fires by doing so. Many homes today use circuit breakers in lieu of fuses. The circuit breaker is a spring loaded switch that turns itself off when a circuit becomes overloaded, or gets too hot. I hope that answered your question.
A basic electrical circuit needs a voltage supply (battery or household outlet), wiring to carry electrons to and from the voltage supply to the load, and a load (motor, light, heat element, stereo, blender, whatever).
It's called transmutation. There are two types of transmutation. Natural transmutation is when an element naturally changes into another element. Artificial transmutation is when an element is forced to change into another element, usually done in a laboratory setting.