First Ionization Energies & Metallic/Non-Metallic Properties

In summary, the relationship between first ionization energies and metallic and non-metallic properties is that non-metallic atoms have higher first ionization energies than metallic atoms.
  • #1
97lmn
9
0
got a homework problem...

What is the relationship between first ionization energies and metallic and non-metallic properties?

no idea what they are talking about here.
 
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  • #2
The policy here is that we can't help unless you show that you've made some effort. Where is the first place you would think to look ?
 
  • #4
Astronuc said:
Start here - http://hyperphysics.phy-astr.gsu.edu/hbase/chemical/bondd.html#c2

And as Gokul mentioned, students must display some effort on their own. Then we are more than pleased to assist.

Er... I could be misreading something here, but if we look at the original question:

97lmn said:
got a homework problem...

What is the relationship between first ionization energies and metallic and non-metallic properties?

no idea what they are talking about here.

.. the fact that "metallic and non-metallic" are involved means that this is a SOLID property, not individual atoms. If that is the case, the I'm afraid, astronuc, that the definitions of ionization energies (and electron affinities) have slightly different meanings.

But then again, since this was asked in the Chemistry section...

Again, the problem here is that the original question is very vague in describing the CONTEXT of the problem. This seems to be a very common occurence when people are seeking help - they seem to assume that we know what they're doing and at what level they are at. Why is that?

Zz.
 
  • #5
Zz, this is (from my best guess) a school level chemistry homework problem. All that is being asked for is a correlation between the first IE of an isolated atom of an element and the tendency of that element to exist as a metallic solid. And there's only one way to attempt answering this question. And while this answer can be found in the hyperphysics link provided by Astronuc, the explanation/definitions will not help any.

No "why"s and "wherefore"s will be explained by the teacher because that would simply be beyond the scope of such a class, not to say anything about being beyond the ability of the average school teacher. A crude, hand-waving explanation, though, can be given.
 
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  • #6
yes...grade 12 chemistry.

heres what I've come up with :blushing: ...

1. nonmetallic atoms have higher first-ionization energies than metallic atoms.

2. certain gases have very high first ionization energies such as helium, neon, and argon. with the exception of helium, they have two s electrons and six p electrons in their outer most energy level.

anything to add or correct?
 
  • #7
1. Looks about right. But keep in mind that metals can exist only when you have a large number of atoms. I would call them metallic/non-metallic elements, rather than "atoms".

2. These gases have a special name - they are called Noble Gases or Inert Gases.

As far as the question is concerned you have answered it in #1. I'm not certain, though, if the question also wants to know why this relationship exists. You might want to ask your teacher about that.
 
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  • #8
ok thanks, ill ask.
 

1. What is the definition of first ionization energy?

First ionization energy is the amount of energy required to remove the outermost electron from an atom in its gaseous state.

2. How does first ionization energy vary across the periodic table?

First ionization energy generally increases from left to right across a period and decreases from top to bottom within a group in the periodic table.

3. How is first ionization energy related to metallic and non-metallic properties?

Elements with low first ionization energies tend to be more metallic in nature, while those with high first ionization energies tend to be more non-metallic. This is because metals have a lower tendency to gain electrons, resulting in a lower first ionization energy, while non-metals have a higher tendency to gain electrons, resulting in a higher first ionization energy.

4. What is the general trend of first ionization energy within a group of elements?

First ionization energy generally decreases down a group of elements in the periodic table. This is because the outermost electron is further away from the nucleus, making it easier to remove.

5. How is first ionization energy measured and expressed?

First ionization energy is measured in units of kilojoules per mole (kJ/mol) and is typically expressed as a positive value. This represents the energy required to remove one mole of electrons from one mole of gaseous atoms.

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