Polar vs Non polar
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Polar vs Non polar
How do you know when something is polar or non polar? What are some identifying factors used to figure it out?
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Re: Polar vs Non polar
To figure out if something is polar or non polar we have to look at the dipole moments. If the dipole moments cancel each other out the compound is non polar. In contrast if there is a strong dipole moment the compound is polar.
Re: Polar vs Non polar
If the electronegativity of two atoms is basically the same, a nonpolar covalent bond will form, and if the electronegativity is slightly different, a polar covalent bond will form.
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Re: Polar vs Non polar
polar molecules result from polar bonding between atoms where electrons are not shared equally
atoms from the same element do not form polar bonds because they share electrons equally
the greater the difference in electronegativity then the more ionic the bond is and bonds that have ionic bonds
nonpolar covalent bonds happen when the two atom's electronegativities are equal
atoms from the same element do not form polar bonds because they share electrons equally
the greater the difference in electronegativity then the more ionic the bond is and bonds that have ionic bonds
nonpolar covalent bonds happen when the two atom's electronegativities are equal
Re: Polar vs Non polar
Polar versus nonpolar is very difficult to determine but it is based off of the difference in electronegativity between the atoms in a molecule. usually if the molecule is very symmetrical with its lewis dot structure then it will be nonpolar.
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Re: Polar vs Non polar
A quick rule of thumb to determine the polarity of a molecule is to look at how symmetrical it is. If the arrangement of the atoms is symmetrical, it will most likely be non polar.
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Re: Polar vs Non polar
To tell whether a molecule is polar or nonpolar, one could look at whether or not the dipoles cancel, the electronegativity, and whether or not the electron pull of each atom is symmetrical. For example, in F2, the electrons of each F atom have the same pull, so it is a nonpolar molecule. However, in HCl, the Cl has a much stronger pull than the H, so this would be a polar covalent bond.
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Re: Polar vs Non polar
It depends on the difference in electronegativity of the atoms. C-H for example have similar electronegativity and therefore is nonpolar because electrons are shared equally between the 2 atoms.
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Re: Polar vs Non polar
This is what my high school chem teacher taught us: "A molecule with a uniform distribution of electron density is nonpolar; and one with an asymmetrical distribution is polar. A molecule is nonpolar only if it has no lone pair electrons about the central atom and all groups attached to the central atom are identical (both conditions must be met to be nonpolar). Another way to state this is if the electron group and molecular shapes are the same and the atoms attached to the central atom are identical, then the molecule is nonpolar."
Re: Polar vs Non polar
The molecule will most likely be polar if there are different atoms around the central atom. A molecule will most likely be nonpolar if the molecule is symmetrical and has the same atoms around the central atom.
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Re: Polar vs Non polar
When you determine that the atom is polar or non polar (from the previous comments), the direction of polarity points to the atom that is most electromagnetic! :)
Re: Polar vs Non polar
To determine whether or not a molecule is polar or nonpolar, you have to consider the electronegativity between atoms, and if the atoms are symmetrical, it would most likely be nonpolar.
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Re: Polar vs Non polar
A polar molecule is when there are slight positive and/or negative charges within the atoms. This is formed when one of the atoms tends to attract the electrons more than the others due their electronegativity levels. Hydrogen and Carbon tend to have low electronegativity levels that is why all hydrocarbons are considered non polar. Meanwhile, Oxygen and Nitrogen have high electronegativity levels which explains why water is a polar molecule because oxygen attracts the electrons more than the hydrogen; thus making oxygen slightly negative and hydrogen slightly positive. Hydrogen bonds occur only if the hydrogen is paired with an element with high electronegtaivity, thus molecules that can form hydrogen bonds with water are considered polar and those that can't are nonpolar.
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Re: Polar vs Non polar
Polar molecules have an uneven hold on the electrons whereas in non polar molecules the electrons are shared equally or mostly equally. You can tell just by looking at the electronegativity differences of the certain elements.
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Re: Polar vs Non polar
I love polar vs nonpolar stuff!
The polarity of a compound depends on the charges and electronegativity of its structure. The electronegativity of atoms can be found on a periodic table such as this:
http://www.thecatalyst.org/electabl.html
Using the values from the periodic table above, you can measure how polar a compound is.
For example, let's take HF, H20 and CH
We would calculate the polarity of HF by taking the electronegativity of F and subtracting it by the electronegativity of H: 4.0 - 2.1 = 1.9.
CH: 2.5 - 2.1 = 0.4
H20: 3.5 - 2.1 = 1.4
After getting these values, we would align them within a line that gives us ranges of polarity. The following is data that describes this line from https://www.chemteam.info/Bonding/Elect ... arity.html:
I. Nonpolar Covalent: This type of bond occurs when there is equal sharing (between the two atoms) of the electrons in the bond. Molecules such as Cl2, H2 and F2 are the usual examples.
Textbooks typically use a maximum difference of 0.2 - 0.5 to indicate nonpolar covalent. Since textbooks vary, make sure to check with your teacher for the value he/she wants. The ChemTeam will use 0.5.
One interesting example molecule is CS2. This molecule has nonpolar bonds. Sometimes a teacher will only use diatomics as examples in lecture and then spring CS2 as a test question. Since the electronegativities of C and S are both 2.5, you have a nonpolar bond.
II. Polar Covalent: This type of bond occurs when there is unequal sharing (between the two atoms) of the electrons in the bond. Molecules such as NH3 and H2O are the usual examples.
The typical rule is that bonds with an electronegativity difference less than 1.6 are considered polar. (Some textbooks or web sites use 1.7.) Obviously there is a wide range in bond polarity, with the difference in a C-Cl bond being 0.5 -- considered just barely polar -- to the difference the H-O bonds in water being 1.4 and in H-F the difference is 1.9. This last example is about as polar as a bond can get.
III. Ionic: This type of bond occurs when there is complete transfer (between the two atoms) of the electrons in the bond. Substances such as NaCl and MgCl2 are the usual examples.
The rule is that when the electronegativity difference is greater than 2.0, the bond is considered ionic.
So, in our cases, the CH bond is nonpolar, while H20 and HF are polar.
I hope this helped!!!!!
The polarity of a compound depends on the charges and electronegativity of its structure. The electronegativity of atoms can be found on a periodic table such as this:
http://www.thecatalyst.org/electabl.html
Using the values from the periodic table above, you can measure how polar a compound is.
For example, let's take HF, H20 and CH
We would calculate the polarity of HF by taking the electronegativity of F and subtracting it by the electronegativity of H: 4.0 - 2.1 = 1.9.
CH: 2.5 - 2.1 = 0.4
H20: 3.5 - 2.1 = 1.4
After getting these values, we would align them within a line that gives us ranges of polarity. The following is data that describes this line from https://www.chemteam.info/Bonding/Elect ... arity.html:
I. Nonpolar Covalent: This type of bond occurs when there is equal sharing (between the two atoms) of the electrons in the bond. Molecules such as Cl2, H2 and F2 are the usual examples.
Textbooks typically use a maximum difference of 0.2 - 0.5 to indicate nonpolar covalent. Since textbooks vary, make sure to check with your teacher for the value he/she wants. The ChemTeam will use 0.5.
One interesting example molecule is CS2. This molecule has nonpolar bonds. Sometimes a teacher will only use diatomics as examples in lecture and then spring CS2 as a test question. Since the electronegativities of C and S are both 2.5, you have a nonpolar bond.
II. Polar Covalent: This type of bond occurs when there is unequal sharing (between the two atoms) of the electrons in the bond. Molecules such as NH3 and H2O are the usual examples.
The typical rule is that bonds with an electronegativity difference less than 1.6 are considered polar. (Some textbooks or web sites use 1.7.) Obviously there is a wide range in bond polarity, with the difference in a C-Cl bond being 0.5 -- considered just barely polar -- to the difference the H-O bonds in water being 1.4 and in H-F the difference is 1.9. This last example is about as polar as a bond can get.
III. Ionic: This type of bond occurs when there is complete transfer (between the two atoms) of the electrons in the bond. Substances such as NaCl and MgCl2 are the usual examples.
The rule is that when the electronegativity difference is greater than 2.0, the bond is considered ionic.
So, in our cases, the CH bond is nonpolar, while H20 and HF are polar.
I hope this helped!!!!!
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Re: Polar vs Non polar
If the electronegativity difference between two atoms is large, the molecular formed by the two atoms would be polar; if he difference is subtle or zero, then the molecule is nonpolar. If the molecule is a long chain composed of many (mostly four or more) carbons and hydrogens, as well as very few (frequently one) atoms that are very electronegative, the molecule would still be overall nonpolar, but with a polar region.
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