Electrons always move 4m a region of low potential 2 higher. While electrons move 4m negative 2 positive terminal they continuously gain energy as work is done on them by the positive terminal to attract them 2wards it. In this process an energy equal to the work done on the electrons ( by the positive terminal ) is gained by the electrons. That is y, as electrons cum closer to the positive terminal they hav high potential stored in them..The electrons, in order to attain this high potential flow 2wards the positive terminal of a battery wen connected in a circuit...
Answered by - a 10th standard boy....:D...........
Electrons tend to go to an area of low potential to high potential. This is because an area with high potential is more positive and the charge on an electron is negative.
In a region where the potential decreases from high to low, the direction of the electric field is from high potential to low potential.
electrons are negatively charged so they tend to move towards the more positive charge which in this case would be high potential.
False. A region in which there is a high probability of finding an electron is called an orbital in quantum mechanics, not a field.
the electrons flow from the region of low potential to region of high potential. the electric current also flow in this direction but for convention we took it as the flow of positive charge from region of low to high region potential.
electrons tend to go to the region of high potential because they are of negative charge.
Electrons would go towards high positive potential
Electrons tend to go to an area of low potential to high potential. This is because an area with high potential is more positive and the charge on an electron is negative.
In a region where the potential decreases from high to low, the direction of the electric field is from high potential to low potential.
electrons are negatively charged so they tend to move towards the more positive charge which in this case would be high potential.
The potential gradient gives the electric field intensity E at point in electric field which is directed from high to low potential. An electron being a negative charge particle therefore will tend to move from low potential to high potential, hence will move up the electric field
atomic orbital
atomic orbital
False. A region in which there is a high probability of finding an electron is called an orbital in quantum mechanics, not a field.
the electrons flow from the region of low potential to region of high potential. the electric current also flow in this direction but for convention we took it as the flow of positive charge from region of low to high region potential.
An orbital is often thought of as a region of space in which there is a high probability of finding an electron in an atom. It is a mathematical function that describes the location and energy of an electron in the three-dimensional space around an atomic nucleus.
Yes, lithium has a high electron reduction potential. This is because lithium has a low ionization energy due to its large atomic size and low effective nuclear charge, making it relatively easy to lose an electron and form a stable cation. This low ionization energy results in a high reduction potential for lithium.