Fluorine is the only element that has a greater ability than oxygen to attract electrons in that period.
Chlorine, Bromine, Iodine, and Astatine all have the same electron affinity as Flourine, with the largest (Astatine) with slightly more.
Oxygen is in the Oxygen group/family, in the 6a group of the Periodic Table, and the other named elements in this answer are all halogens, in the 7a group.
carbon dioxide
Electronegativity is a property that describes the tendency of an atom to attract electrons.An atom with a higher electronegativity number will attract more electrons towards it.Electropositivity is the opposite - so an atoms ability to donate electrons and form positive (or partially positive) ions.
The activity of an element is its ability to react the easier an element reacts with other elements the higher its activity is.
Because their ability to attract electrons is higher from bottom to top and left to right so the elements on the right side or your negative elements will have a bigger ionic radii
No, the bond electrons are weighted towards the element with the higher electronegativity, while forming the ionic bond.
Oxygen has a stronger attraction for electrons because there is a greater probability of finding the shared electrons near the oxygen atom than near the hydrogen atom, due to the higher electronegativity of oxygen compared to hydrogen.
electronegativity is a measure of the tendency of an atom to attract a bonding pair electrons
Electronegativity is a property that describes the tendency of an atom to attract electrons.An atom with a higher electronegativity number will attract more electrons towards it.Electropositivity is the opposite - so an atoms ability to donate electrons and form positive (or partially positive) ions.
electronegativity is the tendency of an atom to attract a bonding pair of electrons, therefore fluorine is more able to attract electrons then lithium (has a greater pull).
Electronegativity is tendency of an atom to attract shared pair of electrons towards itself in a chemical bond. Since it is only relative electron tendency, it has no specific units. Electronegativity is elated to: (a) Size of an atom. (b) Effective nuclear charge Atom with small size and high nuclear charge has high electronegativity due to the strong pull exerted on shared electrons by the nucleus. For example, fluorine is highly electronegative element with electro negativity value 3.92 due to small size and high effective nuclear charge. Atom with greater size and less nuclear charge has low electronegativity as its nucleus does not exert a stong attractive force on shared electrons. For example, Caesium is least electronegative element with electronegativity value 0.7 due to its big sizes and less effetive nuclear charge.
The activity of an element is its ability to react the easier an element reacts with other elements the higher its activity is.
the dense of that element get lower when changing phrase
No, the bond electrons are weighted towards the element with the higher electronegativity, while forming the ionic bond.
Because their ability to attract electrons is higher from bottom to top and left to right so the elements on the right side or your negative elements will have a bigger ionic radii
They have a higher electronegativity than metals. Electronegativity is the tendency of an atom or a functional group to attract electrons to itself.
electrons are transfered from one atom to another when it is negatively or positively charged. this is done so that the atom can be come stable. for an atom to become stable the amount of electrons on the orbital must be equal to the amount of protons so that atom would have no charge.
No, the bond electrons are weighted towards the element with the higher electronegativity, while forming the ionic bond.
absorbed by electrons that move to higher energy levels