upper right hand corner
This is the electronegativity of fluorine - 3,98 (In the Pauling scale).
in fluorine
In the right corner of the periodic table.
The more electronegative element. Nonmetals have enough electronegativity advantage over metals to do this.
I would expect it is Silicon, same as on Earth.
which tubes?
The electronegativity value tells you how much that element "wants" an electron, therefore, an element with a high electronegitivity value would generally give a negative ion. The definition of a negative ion is an atom with more electrons than protons.
The element with the greatest electronegativity in this scenario would be Cl or Chlorine.
Oxygen has the second highest electronegativity of any element, second only to fluorine. Since it would be unusual to have fluorine in the electron transport chain, we can safely expect that oxygen will have the highest electronegativity in the chain.
Electronegative charge increases across the periodic table to the right and up into the corner ( excepting the Nobel gasses ), so the two elements that would have higher electronegativity in that direction and in order. Oxygen and fluorine.
If only the monopositive ions are considered, helium would create the ion with highest electronegativity.
Electronegativity is kind of a "made-up" thing as opposed to an actual quantity that can be experimentally measured. Fluorine is usually considered to have the highest electronegativity, though the precise value depends on exactly what definition and scale you're using and for "spectroscopic electronegativity" neon actually has the highest electronegativity of all.
in any individual would you can expect to find the greatest incidence of osteoporosis
nonmetal with high electronegativity.
In the right corner of the periodic table.
The more electronegative element. Nonmetals have enough electronegativity advantage over metals to do this.
florida
cadium
At the bottom of the valley!