Placing two dissimilar metals in a fruit creates a chemical reaction that generates a flow of electrons, resulting in an electric current. This process is known as a fruit battery, where the acidity of the fruit acts as an electrolyte to facilitate electron transfer between the metals.
When two dissimilar metals are placed in a fruit, a chemical reaction occurs between the metal and the acids in the fruit. This creates a potential difference between the two metals, leading to the flow of electrons and the generation of an electric current. This phenomenon is known as a fruit battery.
The dissimilar metals in contact with the electrolytes present in the fruit create a chemical reaction, generating an electric current through a process known as galvanic corrosion. This is due to the difference in the electrode potentials of the metals, causing electrons to flow from one metal to the other, creating an electrical circuit.
Electric current is the flow of electric charge through a conductor. It produces various effects such as heating, lighting, and magnetism. In electronics, current is used to power devices and transmit signals.
Yes, a moving electron in a magnetic field can induce an electric current. This is the principle behind electromagnetic induction, where a changing magnetic field induces an electric current in a conductor.
Electrons are the particles that flow to produce an electric current in a conductor like a wire. When a potential difference is applied across a conductor, electrons move from the negative terminal to the positive terminal, creating an electric current.
When two dissimilar metals are placed in a fruit, a chemical reaction occurs between the metal and the acids in the fruit. This creates a potential difference between the two metals, leading to the flow of electrons and the generation of an electric current. This phenomenon is known as a fruit battery.
The dissimilar metals in contact with the electrolytes present in the fruit create a chemical reaction, generating an electric current through a process known as galvanic corrosion. This is due to the difference in the electrode potentials of the metals, causing electrons to flow from one metal to the other, creating an electrical circuit.
transmitission of current produce an electric field.and it produce power
There are eels that can produce an electric shock. They are called electric eels.
There was a disagreement over Galvani's experiment. In response to that Volta developed the early voltaic pile that could produce a steady electric current. Volta experimented with various metals and concluded that the most effective pair between dissimilar metals to produce electricity was silver and zinc. He experimented by placing the electrodes made of the two metals in a series connections by filling a goblet with wine.
Electric current is the flow of electric charge through a conductor. It produces various effects such as heating, lighting, and magnetism. In electronics, current is used to power devices and transmit signals.
It produces an electric current.
electric current
electric genarator
Yes, a moving electron in a magnetic field can induce an electric current. This is the principle behind electromagnetic induction, where a changing magnetic field induces an electric current in a conductor.
yes. electric current low always generates a magnetic field.
they produce a current the magnetic field has to turn motion into that current. the gas coal or water pass on that current to the magnetic field.