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Which element in the alkali metals most easily loses electrons and why?
This is francium because having a very lower electronegativity can loss easily an electron.
What specifies the properties of electrons?
The number most usually associated with electrons is minus one, which describes their electrical charge.
What kind of element metal or nonmetal can form an anion?
Non-metals gain electrons. Hence, they can easily form anions.
Pick the statement that is most likely to be true of an element with LOW electronegativity?
An element with low electronegativity is likely to be a good conductor of electricity since it has a weaker ability to attract and hold on to electrons. This means that the element is less likely to form strong covalent bonds with other elements, making it more likely to easily share electrons and conduct electricity.
Which element would you expect to gain one electron in a chemical reaction?
Metals are the elements that usually lose electrons in their chemical reactions. This is because they have few electrons in their outermost shells which are easily lost.
An element that has two outer electrons seeks to gain six more?
An element that has two outer electrons is carbon. Carbon would not use the energy to gain six more electrons when it can easily get rid of the two outer electrons.
Electrons of the 19th element?
The 19th element is potassium, which has the atomic symbol K. It has 19 electrons, including one valence electron that can be easily lost.
Why does an isotope of an element not change what the element is?
Basically, the protons are what hold the electrons in orbit, so they are what determine how the element can bond with other elements, how easily the electrons can break off, and how the electrons configure themselves. The neutrons don't really do much (unless there's a lot of them, then the element become radioactive and they start breaking off).
Which element in the alkali metals most easily loses electrons and why?
This is francium because having a very lower electronegativity can loss easily an electron.
What elements easily give up electrons?
Group 1 elements, such as lithium, sodium, and potassium, easily give up electrons because they have one electron in their outer shell and are highly reactive. Additionally, elements in Group 17, such as fluorine and chlorine, can also easily gain electrons.
What specifies the properties of electrons?
The number most usually associated with electrons is minus one, which describes their electrical charge.
What kind of element metal or nonmetal can form an anion?
Non-metals gain electrons. Hence, they can easily form anions.
Pick the statement that is most likely to be true of an element with LOW electronegativity?
An element with low electronegativity is likely to be a good conductor of electricity since it has a weaker ability to attract and hold on to electrons. This means that the element is less likely to form strong covalent bonds with other elements, making it more likely to easily share electrons and conduct electricity.
What is the relationship between the number of valence electrons and the conductivity of a given element?
The number of valence electrons in an element affects its conductivity by influencing how easily electrons can move through the material. Elements with more valence electrons have higher conductivity because they have more free electrons available for conduction. In contrast, elements with fewer valence electrons have lower conductivity as the movement of electrons is more restricted.
Which element would you expect to gain one electron in a chemical reaction?
Metals are the elements that usually lose electrons in their chemical reactions. This is because they have few electrons in their outermost shells which are easily lost.
Does Francium give away electrons easily or hold on to them tightly?
Francium gives away electrons very easily due to its location in the alkali metal group, which makes its outer electron very loosely bound. This makes Francium highly reactive and likely to form ions by losing its single valence electron.
What is the primary characteristic of an element that makes it a good conductor?
The presence of free electrons is the primary characteristic of an element that makes it a good conductor of electricity. Materials with a high number of free electrons can easily carry electric current because the electrons are able to move through the material with little resistance.
