starting from carbon what occurs to the ion charge as u move it to right?
In my periodic table Carbon does not have a charge at all; there is just a dash in place of where a charge should be, I'm not really sure what that means.
starting from carbon, what occurs to the ion charge as u move to left?
all I know is that on the left side of carbon there is a metalloid which is boron and it doesn't say the charge there either. there is only a dash in place of wherever that charge should be.
right after that question it asks:
as u move to the right, & down, wat happens to the atomic mass & the atomic number? r there any exceptions to ur answers?
am I supposed to move down one spot from carbon; would that be silicon?
the atomic mass is at 28.09 and the atomic number is 14.
from carbon to the right, ions get more positive (N is -3, O -2, F -1). from carbon to the left, ions get more negative (B+3, Be+2, Li+1)
From carbon down, atomic number increases and atomic mass increases. If you move to the right and down, atomic mass increases, and atomic number increases.
In general, the ion charge of elements can vary depending on their position in the periodic table. For carbon, its ion charge refers to the charge it gains or loses when it forms an ion. Carbon typically forms a 4- ion by gaining 4 electrons, resulting in a charge of -4.
Moving to the right on the periodic table, elements have a tendency to gain electrons and form negative ions. This is because as you move to the right, the number of valence electrons increases, making it easier for these elements to gain electrons and achieve a stable electron configuration.
However, the specific ion charge of elements to the right of carbon will vary. It is necessary to consider the specific element and its position in the periodic table to determine its ion charge accurately.
When it comes to the ion charge of elements, it's important to understand that the ion charge is related to the number of valence electrons an atom has. Valence electrons are the outermost electrons in an atom's electron configuration, and they determine the atom's ability to form chemical bonds.
In the case of carbon, it is located in Group 14 of the periodic table. Group 14 elements, also known as the carbon group, include carbon, silicon, germanium, tin, and lead. These elements all have four valence electrons.
Moving to the right of carbon in the periodic table, you'll encounter elements like nitrogen, oxygen, and fluorine. These elements are in Group 15, 16, and 17 respectively, and they tend to gain electrons to achieve a stable electron configuration. This means that as you move to the right of carbon, ion charges will generally become more negative. For example, nitrogen tends to gain three electrons to achieve a full valence shell, resulting in a charge of -3.
Now, as you move to the left of carbon, you mentioned that boron is located in Group 13, which is one group to the left of carbon. Group 13 elements, including boron, aluminum, gallium, indium, and thallium, have three valence electrons. These elements can lose these electrons to achieve a stable electron configuration, resulting in a positive ion charge. However, the actual charge of the element may vary depending on the specific compound or reaction.
In summary, as you move to the right of carbon, ion charges generally become more negative, while moving to the left of carbon, ion charges generally become more positive. The specific values of the charges may vary, depending on the chemical environment and the elements involved.