I am pretty sure its Pd (Palladium)
The element with ten 4d electrons in Period 5 is Palladium (Pd), which has an electron configuration of [Kr] 4d^10.
The element with three 4d electrons is ruthenium (Ru), which has an atomic number of 44. The 4d sublevel can hold a maximum of 10 electrons, so with only three electrons, ruthenium has a partially filled 4d orbital.
In a neutral atom of the element technetium (Tc), there are 6 electrons in the 4d orbitals. This is because the 4d orbitals can hold a maximum of 10 electrons, following the electron filling pattern.
The element that forms a +3 ion with the electron configuration Kr 4d^6 is osmium (Os). Osmium typically forms a +3 ion by losing three electrons from its outermost 6s and 5p orbitals, resulting in the electron configuration Kr 4d^6.
The maximum number of electrons that can occupy each of the following orbitals are: 2s: 2 electrons 5p: 6 electrons 4f: 14 electrons 3d: 10 electrons 4d: 10 electrons
5
The element with three 4d electrons is ruthenium (Ru), which has an atomic number of 44. The 4d sublevel can hold a maximum of 10 electrons, so with only three electrons, ruthenium has a partially filled 4d orbital.
since it is in period 5 it contains 4d and 3d levels which both hold 10 electrons each. so therefore I (53) has 20 d electrons
The valence electrons fill in 4d orbital The electron configuration of yttrium is [Kr]4d15s2.
Yes Zr (atomic number 40) is the first transitional element in period 5 ('4d-block' metals).
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10 electrons.
The element that forms a +3 ion with the electron configuration Kr 4d^6 is osmium (Os). Osmium typically forms a +3 ion by losing three electrons from its outermost 6s and 5p orbitals, resulting in the electron configuration Kr 4d^6.
The maximum number of electrons that can occupy each of the following orbitals are: 2s: 2 electrons 5p: 6 electrons 4f: 14 electrons 3d: 10 electrons 4d: 10 electrons
The element is Yttrium, with the symbol Y
The 4d subshell in the ground state of atomic xenon contains 10 electrons.
If you are filling in the electrons it will be in the 4d orbital. If you are removing electrons the first to come out is in the 5s electrons since transition metals lose 's' electrons before 'd' electrons