H-O-F-O
With 2 non bonding pairs on the first Oxygen, 2 on fluorine and 3 on 2nd oxygen.
With formal charges of H= 0, 01= 0, F= +1, O2= -1, for a total charge of 0.
a waste of time
Fluorine Structure
The compound you describe is fluro methane. It has a single carbon atom at the centre (the "C") which is attached to 3 hydrogen atoms (the "H") and one fluorine atom (the "F"). It is a molecule with a tetrahedral shape. The compound is known as a fluoro carbon.
An atom of fluorine has the greatest attraction among all atoms for electrons; therefore, no other atom can extract an electron from a fluorine atom, as would be required for the fluorine to have a positive oxidation state.
Potassium and fluorine will form an ionic bond
A neutral atom of fluorine contains 7 valence electrons.
Fluorine, electronegativity increases up and to the right on a periodic table of elements.
help m pleasure
For fluorine: 8 dots.
For fluorine: 8 dots.
An atom of fluorine
The compound you describe is fluro methane. It has a single carbon atom at the centre (the "C") which is attached to 3 hydrogen atoms (the "H") and one fluorine atom (the "F"). It is a molecule with a tetrahedral shape. The compound is known as a fluoro carbon.
The electron configuration for an atom of fluorine is [He]2s2.2p5.
Fluorine is an element, s an atom of fluorine contains only one element - fluorine. However, the fluorine molecule consists of two atoms of fluorine.
No one founded the fluorine atom. The element fluorine has existed since before the earth was formed.
'Fluoride atom'. ???? The fluorine ATOM is 'F' The fluorine molecule is 'F2'. The Fluoride ION is 'F^-' NB When an atom becomes a charged species, it is no longer an atom , but an ION. The suffix '--ide' indicates it is an ion, not an atom. So 'Fluoride atom' is a nonsense. It is either 'Fluoride ion' or Fluorine atom'.
The electron configuration for an atom of fluorine is [He]2s2.2p5.
An atom of fluorine has the greatest attraction among all atoms for electrons; therefore, no other atom can extract an electron from a fluorine atom, as would be required for the fluorine to have a positive oxidation state.
Potassium and fluorine will form an ionic bond