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Do attractive forces have less hold on electrons farther from the nucleus?
Yes, as electrons get farther from the atomic nucleus they are less attracted to that nucleus, which is exactly what you would expect on the basis of Coulomb's Law, F=q1q2/r2 as the radius of the orbit increases the attractive force becomes decreased.
Which has more potential energy an electron close to an atomic nucleus or one far from an atomic nucleus?
An electron far from an atomic nucleus has more potential energy compared to one close to the nucleus. This is because the farther the electron is from the nucleus, the higher its potential energy due to the increased distance from the attraction of the positively charged nucleus.
Why do you suppose that an energy level close to the nucleus can hold fewer electrons than one farther away from the nucleus?
Energy levels close to the nucleus have lower energy, which means electrons are more tightly bound and experience stronger electrostatic attraction to the nucleus. This results in a limited capacity for electrons at lower energy levels. As electrons move to higher energy levels, they are farther from the nucleus and experience weaker attraction, allowing for higher electron capacity.
How does the energy of core electrons compare with that of valence electrons?
Core electrons have lower energy levels than valence electrons. Core electrons are closer to the nucleus and are more tightly bound, while valence electrons are in the outermost energy level and have higher energy due to being farther from the nucleus.
Where are energy levels located in an atom, and how are they related to the distance from the nucleus?
Energy levels in an atom are located at specific distances from the nucleus. These energy levels are related to the distance from the nucleus in that the farther away an energy level is, the higher the energy of the electrons in that level.
Electrons farther from the nucleus are said to be of?
Electrons farther from the nucleus are said to be of higher energy levels or higher orbitals. This means they have more energy and are less tightly bound to the nucleus compared to electrons closer to the nucleus.
Electrons farther from the nucleus are said to be of what energy?
higher energy
The farther an energy level is from the nucleus the bigger is its what?
You must be thinking of electrons in shells surrounding the nucleus. The quantity getting bigger is therefore the diameter of the electrons orbit.
Do attractive forces have less hold on electrons farther from the nucleus?
Yes, as electrons get farther from the atomic nucleus they are less attracted to that nucleus, which is exactly what you would expect on the basis of Coulomb's Law, F=q1q2/r2 as the radius of the orbit increases the attractive force becomes decreased.
An increased distance of the electrons from the nucleus causes th be affected?
When electrons are farther from the nucleus, the electrostatic force of attraction between the protons in the nucleus and the electrons decreases, leading to weaker binding of electrons to the nucleus. This can result in higher energy levels for the electrons, potentially affecting the reactivity and chemical properties of an atom.
Which has more potential energy an electron close to an atomic nucleus or one far from an atomic nucleus?
An electron far from an atomic nucleus has more potential energy compared to one close to the nucleus. This is because the farther the electron is from the nucleus, the higher its potential energy due to the increased distance from the attraction of the positively charged nucleus.
Why do you suppose that an energy level close to the nucleus can hold fewer electrons than one farther away from the nucleus?
Energy levels close to the nucleus have lower energy, which means electrons are more tightly bound and experience stronger electrostatic attraction to the nucleus. This results in a limited capacity for electrons at lower energy levels. As electrons move to higher energy levels, they are farther from the nucleus and experience weaker attraction, allowing for higher electron capacity.
How does the electron's energy change as the orbit of the electron increases?
As the orbit of the electron increases, the electron's energy also increases. Electrons in higher energy orbits are farther from the nucleus and have more potential energy. Conversely, electrons in lower energy orbits are closer to the nucleus and have less energy.
How does the energy of core electrons compare with the energy of valence electrons?
The energy of the valence electrons is greater than the energy of the core electrons.
Why large atoms are more likely to lose electrons?
In simplistic terms, an atom's electrons are held tot he atom because they are attracted to the positively charged nucleus. In larger atoms the electrons are farther away from that nucleus and there are usually more electrons in between, resulting in a weaker attraction.
The farther an electron is from the nucleus the?
The farther an electron is from the nucleus, the greater its energy.
In an atom an electron that is close to the nucleus is on the highest enegry level?
No. The greater distance from the nucleus the more energy an electron has.
