The bigger the atom, the larger the number of electrons between the outermost energy level and the positively charged nucleus. As a result, the attraction between the electrons in the outermost energy level and the nucleus are slightly weaker, and so, the larger the atom, the greater the sheilding effect.
Na have higher shielding effect than Li *According to my chemistry book
•The shielding effect describes the decrease in attraction between an electron and the nucleus in any atom with more than one electron shell. •It is also referred to as the screening effect or atomic shielding. •Shielding electrons are the electrons in the energy levels between the nucleus and the valence electrons. They are called "shielding" electrons because they "shield" the valence electrons from the force of attraction exerted by the positive charge in the nucleus. Also, it has trends in the Periodic Table
The main factors that affect an atom's electronegativity are its nuclear charge (more protons result in stronger electronegativity), the distance between the nucleus and valence electrons (closer electrons experience stronger attraction), and the shielding effect of inner electron shells (more shielding reduces electronegativity).
The shielding effect reduces the ionization energy and so makes cation formation easier.
== == == == The screening effect, or shielding effect, is how electrons in the same atom interact with each other. In a single-electron atom (in isolation), the electron is only interacting with the proton; in a multielectron atom, the electrons are both interacting with the proton(s), but also with each other. While electrons are attracted to the protons in the nucleus, they are repelled by the other electrons. This electron-electron repulsion decreases the attractive force of the protons on the electrons.The shielding effect changes the effective nuclear charge -- effectively decreasing the true nuclear charge. This effect causes atoms to get smaller as you across a period (row) of the periodic table, as well as many other periodic trends observed in the periodic table.See the Web Links and Related Questions for more information about shielding and periodic trends.--------------------------------------------------------------------------- keep in mind that different orbitals have varying shielding effciencies depending on their shape and symmetry from greatest effect to least s>p>d>f and the effective nuclear charge can be estimated with good approx. by the Slater's Rule whereZ_eff=Z-S Z_eff= effective nuclear charge Z=nuclear charge S=screening (or shielding) factorthe screening factor is calculated by following the directions given at this websitehttp://intro.chem.okstate.edu/WorkshopFolder/SlaterRule.html
Because they have many electron shells.
Na have higher shielding effect than Li *According to my chemistry book
•The shielding effect describes the decrease in attraction between an electron and the nucleus in any atom with more than one electron shell. •It is also referred to as the screening effect or atomic shielding. •Shielding electrons are the electrons in the energy levels between the nucleus and the valence electrons. They are called "shielding" electrons because they "shield" the valence electrons from the force of attraction exerted by the positive charge in the nucleus. Also, it has trends in the Periodic Table
The shielding effect is more noticeable on metals because they have more loosely held electrons in their outer shells that can effectively shield the inner electrons from the nuclear charge. In contrast, non-metals tend to have stronger attractions between their electrons and nucleus, making the shielding effect less pronounced.
The main factors that affect an atom's electronegativity are its nuclear charge (more protons result in stronger electronegativity), the distance between the nucleus and valence electrons (closer electrons experience stronger attraction), and the shielding effect of inner electron shells (more shielding reduces electronegativity).
The shielding effect reduces the ionization energy and so makes cation formation easier.
The shielding effect occurs when inner electrons partially block the attractive force between the nucleus and the outermost electrons. In cation formation, this reduced attraction allows the outer electrons to be removed more easily, as they experience less effective nuclear charge. Consequently, the energy required to ionize the atom decreases, facilitating the formation of cations. Thus, the shielding effect enhances the ease of cation formation by weakening the hold of the nucleus on its valence electrons.
It is " bigger " because it has more electrons in orbit around it. So, to keep things simple and away from such concepts as shielding, we know that the farther electrons are from the nucleus the looser they are held and to ionize this element is easier, thus lower ionization energy needed.
== == == == The screening effect, or shielding effect, is how electrons in the same atom interact with each other. In a single-electron atom (in isolation), the electron is only interacting with the proton; in a multielectron atom, the electrons are both interacting with the proton(s), but also with each other. While electrons are attracted to the protons in the nucleus, they are repelled by the other electrons. This electron-electron repulsion decreases the attractive force of the protons on the electrons.The shielding effect changes the effective nuclear charge -- effectively decreasing the true nuclear charge. This effect causes atoms to get smaller as you across a period (row) of the periodic table, as well as many other periodic trends observed in the periodic table.See the Web Links and Related Questions for more information about shielding and periodic trends.--------------------------------------------------------------------------- keep in mind that different orbitals have varying shielding effciencies depending on their shape and symmetry from greatest effect to least s>p>d>f and the effective nuclear charge can be estimated with good approx. by the Slater's Rule whereZ_eff=Z-S Z_eff= effective nuclear charge Z=nuclear charge S=screening (or shielding) factorthe screening factor is calculated by following the directions given at this websitehttp://intro.chem.okstate.edu/WorkshopFolder/SlaterRule.html
Iodine is a bigger atom than chlorine because it has more electrons and atomic radius.
Yes, the shielding effect is more noticeable in metals compared to other materials. Metals are good conductors of electricity and can effectively redirect electromagnetic fields away from the shielded area, providing better protection against interference.
it is bigger..so it has more electron in orbit than smaller atom...so it keep simple