The farther an electron is from the nucleus, the greater its energy.
The farther an electron is from the nucleus, the more energy that electron will have. Energy levels of electrons are organized into valence shells. Each shell can hold up to a specific number of electrons, and each shell must fill up before the next she begins being filled (except for in a few specific cases). Each shell has more energy than the previous shell.
The further away the electron is from the nucleus, the more potential energy it has to for chemical bonds. The electrons in the outer most valence shell of a reactive element (metal) can donate or share their electron with another element to for covalent or ionic bonds for example.
It's called the Coulomb's law.
Answer: The more energy the greater distance it is away from the nucleus
There is a relationship and it is that the higher the energy of an electron the greater the distance or the more outer shell it occupies
the farther an electron is from the nucleus, the greater its energy
The energy of electrons is expressed in eV (electron volts).
If there is an extra electron in the valence level then the electron is in the excited state and is carrying more energy. If the atom is normal then it is in the ground stte and contains low energy.
Alpha decay is the loss of 2 protons and 2 neutrons Beta-decay is the loss of a positron or electron Gamma decay is the loss of a photon The equation relates this loss to energy produced E=mc^2
The farther an electron is from the nucleus of an atom, the more energy it has.
When an electron is acquired by a neutral atom, the energy change is called electron affinity. Neutral atoms with an s2p6 electron configuration in the highest energy level are best classified as gases.
The farther an electron is from the nucleus, the greater its energy.
The farther an electron is from the nucleus, the greater its energy.
The energy of electrons is expressed in eV (electron volts).
The energy required to remove an electron
Electron. ---------------------------------------------------------------------- The electron itself does not store energy. It is the position of the electron in relation to atomic nuclei that contains the chemical bond energy.
An electron in the third shell has more energy than the electron in the second shell.
If there is an extra electron in the valence level then the electron is in the excited state and is carrying more energy. If the atom is normal then it is in the ground stte and contains low energy.
The amount of energy carried by the wave and the maximum displacement from the rest position.
Light or photons are little packets of energy. When this energy is absorbed by an electron it boots the electrons energy and the electron jumps to a higher orbital shell position (which must be vacant of its electron). The electron can only do this when the energy needed for the jump and the energy in the incoming photon match. Thus specific colours of light are absorbed depending on the element present.
A.Electrical energyB.Elastic energyC.Gravitational potential energyD.Thermal energy
yes
If there is an extra electron in the valence level then the electron is in the excited state and is carrying more energy. If the atom is normal then it is in the ground stte and contains low energy.