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No I can't thats why this page is for .l.124
1st energy level- 2 electrons 2nd energy level- 8 electrons 3rd energy level- 18 electrons To calculate the number of electrons other energy levels can hold, use the formula 2n^2. For example, to calculate the number of electrons the fourth level can hold, the equation would be 2(4)^2. This means that the fourth energy can hold 32 electrons. Same process for other levels.
Atoms don't do anything. If the electrons go to a higher energy state, they use energy. If they fall back to a lower state, they release energy. This shouldn't affect the entire atom, just the electrons.
By the [use and] study of the Periodic Table.
Excited state selenium refers to selenium atoms or ions that have absorbed energy, causing their electrons to move to higher energy levels. This temporary configuration is unstable, and the electrons will eventually return to their original energy levels, releasing the absorbed energy as light. This process is the basis for selenium's use in photovoltaic cells and other light-sensitive technologies.
Well, honey, that element you're looking for is calcium. It's got 2 valence electrons and 4 energy levels, making it quite the popular choice for chemical bonding. So, there you have it, calcium is your guy in this electron game.
It depends on what element the atom is. For example if it is Hydrogen it has one ring or energy level. The higher the element's atomic number is on the periodic table the more energy levels it will have.Actually, every atom has an infinite number of energy levels. Yes, hydrogen has as many as plutonium or gold. The difference is how many of these levels are filled with electrons. When asking about how many filled electron levels an atom has, it increases with atomic number.
Electrons can be excited by absorbing energy, typically in the form of light or heat. This energy pushes the electrons to higher energy levels within an atom. Once the excitation energy is removed, the electrons can release it as light or heat when they return to their original energy state.
The innermost energy level of an atom, also known as the first shell or K shell, can hold a maximum of 2 electrons. This is based on the principle that the first shell can accommodate up to 2 electrons in its single s orbital.
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