Electronegativity is kind of a "made-up" thing as opposed to an actual quantity that can be experimentally measured. Fluorine is usually considered to have the highest electronegativity, though the precise value depends on exactly what definition and scale you're using and for "spectroscopic electronegativity" neon actually has the highest electronegativity of all.
Fluorine (F).
It's opposite would be Francium. (Fr) Which is the least electronegative, or the most electropositive.
Oxygen
The electronegativity of carbon on the Pauling scale is 2,55.
The element in period 4 of the Periodic Table with the highest electronegativity is krypton (2.96). The period 4 element with the lowest electronegativity is potassium (0.82).
The element with the greatest electronegativity in this scenario would be Cl or Chlorine.
No. the element francium will have the lowest electronegativity. However it is radioactive and for practical purpose, cesium is considered to be the element with lowest electronegativity.
The electronegativity of an element is important in figuring out how polar a molecule will be. The higher the electronegativity of an element is compared to another, the more polar the molecule will be. For example, a bond between Flourine and Hydrogen will be very polar, because Flourine has a very high electronegativity, and hydrogen has a very low electronegativity.
The electronegativity of carbon on the Pauling scale is 2,55.
The element in period 4 of the Periodic Table with the highest electronegativity is krypton (2.96). The period 4 element with the lowest electronegativity is potassium (0.82).
A fluorine atom has the greatest electronegativity of any atom.
upper right hand corner
The element with the greatest electronegativity in this scenario would be Cl or Chlorine.
No. the element francium will have the lowest electronegativity. However it is radioactive and for practical purpose, cesium is considered to be the element with lowest electronegativity.
The electronegativity of an element is important in figuring out how polar a molecule will be. The higher the electronegativity of an element is compared to another, the more polar the molecule will be. For example, a bond between Flourine and Hydrogen will be very polar, because Flourine has a very high electronegativity, and hydrogen has a very low electronegativity.
nitrogen has the highest electronegativity
The greater the electronegativity, the stronger an oxidant that element will be. The lower its electronegativity, the stronger a reducing agent it will be.
The electronegativity is the ability to loss electrons.
no the color doesn't have anything to do with the electronegativity
no the color doesn't have anything to do with the electronegativity