no
For the alpha decay the number of protons decrease with 4; for the beta minus decay the number of protons ih higher with 1.
increase
Beta decay results in either an increase or decrease in the number of protons, which results in a change in the nuclear charge and produces an atom of a different element.
To go from H to U - nevermind Be to Ba requires an increase in protons, The atomic number is defined by the number of protons
No
An increase in atomic number would be accompanied by a decrease in radius, and an increase in electronegativity.
The number of electrons increases with the atomic number. So the electronegativity increases with the atomic number. Not quite. Electronegativity doesn't consistently increase with atomic number. For example, F is more electronegative than Na, even though Na has a higher atomic number.
Electronegativity is affected by: atomic number of the element, distance between the nucleus of an atom and the valence electrons or sometimes by the so-called "d-block contraction".
Electronegativity, ionization energy, electron affinity, and atomic number are values that increase from left to right across a period.
For the alpha decay the number of protons decrease with 4; for the beta minus decay the number of protons ih higher with 1.
In order to maintain, electrical neutrality, the number of electrons will also increase as the number of protons increases.
increase
electronegativity
They are inverly related ,number increase cost decrease as wellas cost increase may qulity & number decrease
Increase
Increase
No. All atoms of a given element are alike in the number of protons, which is the atomic number of an element. However, the number of neutrons in the nucleus can vary. Atoms of elements with the same number of protons but different numbers of neutrons are called isotopes. All atoms of a given element in their ground state have the same number of electrons as they do protons, but if they form ions, the number of electrons will increase or decrease, depending on the element, but the number of protons remains the same.