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You can make a tomato battery but the current is very low. It would depend on the acidity of the juice which would usually be lower than in an actual tomato. Use zinc and copper electrodes and cascade multiple juice containers + to - and so forth to get a higher voltage. You might get a very small current this way.
While pure (distilled) water is not a terribly good conductor, the acid in the tomato juice will partially ionize the water in it. The result is a "fairly" good conductor, but still nowhere near as good as copper, silver, aluminum, etc. So, yes, you easily get enough current to flow through tomato juice to give you a nasty shock or light a small bulb, but over any large distances, most of the electrical energy will be lost as heat due to resistance. While pure (distilled) water is not a terribly good conductor, the acid in the tomato juice will partially ionize the water in it. The result is a "fairly" good conductor, but still nowhere near as good as copper, silver, aluminum, etc. So, yes, you easily get enough current to flow through tomato juice to give you a nasty shock or light a small bulb, but over any large distances, most of the electrical energy will be lost as heat due to resistance.
While pure (distilled) water is not a terribly good conductor, the acid in the Tomato Juice will partially ionize the water in it. The result is a "fairly" good conductor, but still nowhere near as good as copper, silver, aluminum, etc. So, yes, you easily get enough current to flow through tomato juice to give you a nasty shock or light a small bulb, but over any large distances, most of the electrical energy will be lost as heat due to resistance. While pure (distilled) water is not a terribly good conductor, the acid in the tomato juice will partially ionize the water in it. The result is a "fairly" good conductor, but still nowhere near as good as copper, silver, aluminum, etc. So, yes, you easily get enough current to flow through tomato juice to give you a nasty shock or light a small bulb, but over any large distances, most of the electrical energy will be lost as heat due to resistance.
The current flowing through a bulb is equal to the (voltage across the bulb) divided by the (bulb resistance), and can be expressed in Amperes. The rate at which the bulb dissipates energy is equal to (voltage across the bulb) times (current through the bulb), and can be expressed in watts.
The electrical current comes into the bulb from the metal side,flow through the filament ,and out the tip.
The bulb glows dimly when current is passed through a vinegar solution because the small number of ions in the vinegar solution move through the filament of the bulb.
A tomato seed.
no
No. A light bulb is a bulb that contains a filament that gets hot when electric current is passed through it.
No. A light bulb is a bulb that contains a filament that gets hot when electric current is passed through it.
Electrical energy is converted into light and heat when electric current flows through the metal filament of a light bulb.
no