Lithium has the lowest electronegativity, then carbon, bromine and fluorine has the highest electronegativity of any atom.
Bromine, its as simple as its more to the RHS of the periodic table
2.03
Pauling electronegativity 2.96 Sanderson electronegativity 3.22 Allred Rochow elctronegativty 2.74 Mulliken-Jaffe electronegativity 2.95 (14.3% s orbital) Allen electronegativity 2.685 Follow the link for further explanation
Electronegativity is the ability of an atom to attract towards it the electron pair of a covalent bond. An atom with low electronegativity is poor at doing this. For instance, the electronegativity of bromine is less than that of chlorine.
Sodium electronegativity (after Pauling): 0,93 Bromine electronegativity (after Pauling): 2,96 The difference is 2,03.
Lithium has the lowest electronegativity, then carbon, bromine and fluorine has the highest electronegativity of any atom.
Sodium electronegativity (after Pauling): 0,93 Bromine electronegativity (after Pauling): 2,96 The difference is 2,03.
The difference electronegativity values of sodium and bromine are; Sodium(Na) 0.9, Bromine(Br) 2.8 thus a difference of 1.9.
Bromine, its as simple as its more to the RHS of the periodic table
is it so? Bromine is more electronegetive than Iodine
the difference between the electronegativity values of sodium and bromine is 1.9 , which is relatively high in general , high differences suggest ionic bonds.
If it is 1.35 it is polar covalent and it is a liquid. Why is it a solid?
2.03
Pauling electronegativity 2.96 Sanderson electronegativity 3.22 Allred Rochow elctronegativty 2.74 Mulliken-Jaffe electronegativity 2.95 (14.3% s orbital) Allen electronegativity 2.685 Follow the link for further explanation
Electronegativity is the ability of an atom to attract towards it the electron pair of a covalent bond. An atom with low electronegativity is poor at doing this. For instance, the electronegativity of bromine is less than that of chlorine.
Electronegativity is the ability of an atom to attract towards it the electron pair of a covalent bond. An atom with low electronegativity is poor at doing this. For instance, the electronegativity of bromine is less than that of chlorine.