Smallest Atomic Radius: Cl-, K+, or Ar?

  • Thread starter Thread starter mrjoe2
  • Start date Start date
  • Tags Tags
    Radius
AI Thread Summary
The discussion centers on determining which atom has the smallest atomic radius among Cl-, K+, and Ar. It is noted that all three have the same number of electrons, but differ in nuclear charge, affecting their atomic size. Chlorine, being more electronegative, pulls its electrons closer, resulting in a smaller radius, while potassium, with weaker electronegativity, has a larger radius. Argon, as a noble gas, falls in between these two in terms of size. The consensus is that Cl- has the smallest radius, followed by Ar, and K+ has the largest.
mrjoe2
Messages
37
Reaction score
0

Homework Statement


which has the smallest atomic radius: cl-, k+, Ar


Homework Equations


none


The Attempt at a Solution


i thought it was argon, but I am not sure because it does have the most protons to bringin the electrons. please someone reply soon!
 
Physics news on Phys.org
The radius of an atom is determined by its overall size and its electronegativity, but in this case the atoms are very similar in size. Chlorine is more electronegative and will pull its electrons in more, decreasing its radius. Potassium is very weakly electronegative, and would rather extend its electrons outward, increasing its radius. Argon is noble, and just sits in between.
 
are you sure about this answer? i don't doubt you or anything, I am just making sure before i engrave this logic into my brain.
 
i think its argon or potassium because they have the more protons and thus greater attractions. cl- is out for sure. it can't be right sorry
 
Note all three have the same number of electrons - they differ only by the nucleus charge. The higher the nucles charge, the stronger the attraction.
 
Yes, I second to Borek answer.

The logic is simple. Positive (nucleus) attract negative (electrons).

So which is more in each atom? Positively charged species? Negatively charged species?
 
Borek said:
Note all three have the same number of electrons - they differ only by the nucleus charge. The higher the nucles charge, the stronger the attraction.
Ah, I didn't even notice that the charges were the same!
 
Charges are not the same, number of electrons is.
 
Of course; my mind has been a bit flighty the past few weeks. I guess I'll stop trying to help!
 
  • #10
Gannon said:
Of course; my mind has been a bit flighty the past few weeks. I guess I'll stop trying to help!

No need for that, just slow down when replying :smile: I am hitting the same wall now and again.
 

Similar threads

Arrange the following species in order of decreasing size
Replies
1
Views
6K
Why does the gas with the smallest molar mass have the highest pressure?
Replies
8
Views
3K
How does the radius of K+ compare to that of Ar?
Replies
2
Views
19K
Atomic and Ionic Radii in Relation to Periodic Trends
Replies
1
Views
3K
Redox Reaction in Dissolved Ammonium Chloride
Replies
5
Views
3K
Why Does C6H5CH(Cl)CH3 < (CH3)3 CCl < C6H5C(CH3)2 Cl Undergo SN1 Reaction?
Replies
1
Views
2K
Why Does the Ni+ Ion Have an Electron Configuration of [Ar]3d9?
Replies
1
Views
12K
What mass of P4 is required to combine with 0.398 g of Cl2?
Replies
28
Views
3K
Chemistry Determining the positive and negative poles of a molecule
Replies
6
Views
5K
H2F+ or CH3SH2+ which is more acidic by looking at the structures?
Replies
3
Views
6K

Hot Threads

Recent Insights

Back
Top