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What device uses chemical energy to give charges electric potential energy?
Wiki User
∙ 10y ago
The device that uses chemical energy to give charges electric potential energy is a battery because it uses chemical energy which gives off potential electric charges.
Wiki User
∙ 10y ago
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What is the device that detects electric charges?
an electroscope
What device creates a potential difference in an electric circuit?
resistor
Which device converts chemical potential energy into light?
A glow stick is one example.
What device produces an electric current by converting chemical energy into electrical energy?
A cell aka battery.
What device transforms chemical energy to mechanical energy to electrical and radiant energy?
A gas-turbine feeding an electric generator that feeds an electric light.
What device changes chemical energy into electric potential energyenergydiagram?
cell
What is the device that detects electric charges?
an electroscope
What device creates a potential difference in an electric circuit?
resistor
What is the name of a device that converts electric energy to chemical energy?
A Synthesizer
Which device converts chemical potential energy into light?
A glow stick is one example.
Device that produces an electric current by converting chemical energy into electrical energy?
battery
A device that creates a potential difference in an electric circuit is?
It is called power supply or battery.
A battery is a device that converts chemical energy into?
Chicken
The property of an electrical device that permits storage of electrically separated charges when potential differences exist between the conductors is called what?
Capacitance.
What is a Mnemonic Device for the 10 types of energy?
go find yourself Not very helpful!This isn't great but it might help. Not - nucleur Every - electric Clever - chemical Good pupil - gravitational potential Knows - kinetic Spiders - sound Have - heat Eight - elastic potential legs - light
What generates electrical energy from chemical energy?
A battery stores chemical energy creating a voltage or potential difference that is the potential to do work.When a battery is connected to an electrical device, current flow and is so the conversion of chemical energy into electrical energy.
How connecting an electric device to a battery produces a current in the device.?
If we connect a battery to a device and complete a circuit, current will flow in that circuit and through the device. A battery (in good condition) is an electrical storage device. Most of the ones we are familiar with are chemical cells. There are chemicals inside that would like to react, but cannot unless there is an external circuit through which electrons can move to get from one electrode in the battery to the other. The potential chemical energy in a battery can be converted into electrical energy by completing that circuit. There is a force called voltagethat arises between the electrodes of the battery. And this voltage (electromotive force, or EMF) is the way that the chemical potential energy expresses itself. Because the battery can convert chemical potential energy into electricity owing to that EMF between the electrodes, connecting a circuit across the battery will allow current to flow as the chemical reactions in the battery proceed. A very rough analogy can be drawn by looking at gravitational potential energy. If a Bowling ball is sitting on the floor and it is lifted onto a table, its gravitational potential energy has been increased. This is distantly similar to the chemical reactions that want to occur in the battery; they are potential energy, too. If the bowling ball rolls off the edge of the table, the potential energy is converted into kinetic energy by gravity. When we hook up an external circuit to the battery, the chemical potential energy (expressed as voltage) drives electrical current through that circuit and the device in it. The circuit here is composed of conductors and the device. Electrons in the conductors are hanging around in the conduction band, and if a voltage is applied, those electrons will begin moving in response. The device must be conductive to some extent, and it, too, will have this electron current flowing through it. The battery has been connected to a circuit and drives current through that circuit. The chemical potential energy in the battery is converted into electrical energy in the circuit and the device connected to it.
