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Chlorine
It is polar, The chlorine is more electronegative than the carbon and thus will pull electrons towards it causing it to become more negatively charged than the carbon.
Chlorine is more electronegative than sulfur.
No, as t is less electronegative it has a partial positive charge.
Chlorine is more electro negative.Iodine has the lowest among halogens
A carbon-chlorine bond would be covalent but chlorine is more electronegative than carbon so the bond would be polar.
Chlorine
No. Chlorine is generally thought to be more electronegative than carbon. (However, there is some theoretical evidence for S(CH3)6 - hexamethyl persulfurane, which is predicted to be stable. Silico experiments reveal that, in this compound the negative charges will be located in the carbon atoms. So it is possible that, in Cl(CH3)3 or even Cl(CH3)5, Carbon may be more electronegative.)
Chlorine is more electronegative than sodium. The farther right you move on the periodic table, the more electronegative elements are. Thus, noting that sodium and chlorine are on the same period, and chlorine is farther to the right than sodium, we know that chlorine is more electronegative than sodium
Oxygen is more electronegative than chlorine. The electronegativity of oxygen is 3.44 and that of chlorine is 3.16 on the Pauling scale.
It is polar, The chlorine is more electronegative than the carbon and thus will pull electrons towards it causing it to become more negatively charged than the carbon.
Chlorine is more electronegative than sulfur.
Nitrogen has a valence of 3 which attracts it to get electrons from other molecules..this attraction it has to complete it's outermost layer is called electronegativity.
No, as t is less electronegative it has a partial positive charge.
Chlorine is more electro negative.Iodine has the lowest among halogens
fluorine is the most electronegative atom . therefore atoms closer to fluorine will be more electronegative.
Chlorine is more electronegative than sulfur because by gaining an extra electron it is able to maximize the effective nuclear charge, therefore stabilizing it and giving it a noble gas arrangement.