Atomic Radii & Clustering Tendency: MgO & NiO

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In summary, substances with similar atomic radii tend to have a lower clustering tendency, while substances with very different atomic radii tend to have a higher clustering tendency.
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benndamann33
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This is a general question, not specific to anyone homework problem just a concept I must understand in order to figure out all of my homework. Does clustering tendency increase as atomic radii between substances A and B become more similar? Clustering tendency may not be particularly clear. What I mean is if there is a substance A and B with very similar atomic radii, are they more likely to dislike each other or like each other. Let's say A is MgO and B is NiO. This now is a specific homework question, admittedly. It seems to me that A and B would like each other becuase the radius of Mg = radius Ni and therefore there would be a low clustering tendecny - that is MgO would not feel compelled to stay with other MgOs becuase NiO is a comparable substance. However MgO and CaO would want to self-cluster because they dislike each other because the radi between Mg and Ca is drastically different. Is this logic incorrect?
 
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Your logic is correct. Generally speaking, substances with similar atomic radii will be more likely to like each other and have a lower clustering tendency than substances with very different atomic radii. The more different the radii, the higher the clustering tendency will be.
 
  • #3


Your logic is correct. In general, substances with similar atomic radii are more likely to have a lower clustering tendency because they are more compatible in terms of their atomic size. This means that they are more likely to mix and form solid solutions rather than segregate into separate clusters.

In the case of MgO and NiO, their similar atomic radii would lead to a lower clustering tendency. However, as you mentioned, substances with drastically different atomic radii, such as MgO and CaO, are more likely to have a higher clustering tendency because their atomic sizes are not compatible and they are more likely to segregate into separate clusters.

It's important to note that clustering tendency is not the only factor that determines the compatibility of substances. Other factors such as electronegativity, bonding strength, and crystal structure also play a role. But in general, substances with similar atomic radii are more likely to have a lower clustering tendency.
 

1. What is the atomic radii of MgO and NiO?

The atomic radius is a measure of the size of an atom, and it varies depending on the element. The atomic radius of MgO is 0.86 Å (angstroms) and the atomic radius of NiO is 0.69 Å.

2. Why is the atomic radius of NiO smaller than that of MgO?

The atomic radius of an atom is affected by the number of protons in the nucleus, the number of energy levels, and the shielding effect of the electrons. NiO has a smaller atomic radius than MgO because nickel has more protons and electrons than magnesium, meaning there is a stronger attractive force holding the electrons closer to the nucleus.

3. How does the clustering tendency of MgO and NiO affect their physical properties?

The clustering tendency of an atom refers to its tendency to form clusters or groups with other atoms. In the case of MgO and NiO, both have a strong clustering tendency due to their high electronegativity and small atomic size. This results in the formation of strong ionic bonds and gives these compounds high melting and boiling points, as well as high hardness and brittleness.

4. How does the atomic radii of MgO and NiO affect their chemical reactivity?

The atomic radii of MgO and NiO play a crucial role in their chemical reactivity. Due to its larger atomic radius, MgO has a weaker electrostatic attraction between its ions, making it more reactive. In contrast, NiO has a smaller atomic radius, resulting in a stronger electrostatic attraction and making it less reactive.

5. What is the significance of understanding the atomic radii and clustering tendency of MgO and NiO?

Understanding the atomic radii and clustering tendency of these compounds is essential in predicting their physical and chemical properties. It allows scientists to make informed decisions when choosing materials for specific applications, such as using MgO in refractory materials due to its high melting point or using NiO in batteries due to its high reactivity.

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