Anything over a 0.002 dipole movement is a polar bond
Depends on the electronegativity scale you are using. But in every scale I know, its pretty high.
A small atomic radius corresponds more closely to a low electronegativity.
Metals that are chemically active have low electronegativity because matals have a weak attraction to electrons.
The higher the electronegativity of a metal the less likely it is to corrode. Metals that corrode easily have a low electronegativity.
The elements with low electronegativity are the metals, specifically the alkali metals and alkali earth metals. The elements further to the left of the periodic table will have lower electronegativity than those farther to the right.
Electronegativity - capacity to loss electrons - is representative for the reactivity of chemical elements; for metals low electronegativity is a high reactivity.
It electronegativity is 1.5
A small atomic radius corresponds more closely to a low electronegativity.
Metals that are chemically active have low electronegativity because matals have a weak attraction to electrons.
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.
Calcium Pauling electronegativity is 1.Fluorine Pauling electronegativity is 4.The difference is 3.
The higher the electronegativity of a metal the less likely it is to corrode. Metals that corrode easily have a low electronegativity.
an atom with a high electronegativity, like fluorine
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.
The elements with low electronegativity are the metals, specifically the alkali metals and alkali earth metals. The elements further to the left of the periodic table will have lower electronegativity than those farther to the right.
Potassium has a low electronegativity.
A low electronegativity for metals and a high electronegativity for nonmetals.
Electronegativity - capacity to loss electrons - is representative for the reactivity of chemical elements; for metals low electronegativity is a high reactivity.