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To draw the orbital diagram for hydrogen with an atomic mass of 3 and atomic number of 1, you start by writing the electron configuration as 1s1. Since hydrogen has only one electron, it occupies the 1s orbital. The orbital diagram would show a single electron in the 1s orbital, depicted as ↑.
Hydrogen is an element. Its atomic number is one. It has one proton in the nucleus, and one electron in the first orbital. It has no neutrons.
Nitrogen (N) has atomic number 7. It has full 1s and 2s orbitals. The 2px orbital has 1 electron, the 2py orbital has 1 electron and the 2pz orbital has 1 electron. So the valence shell is: 2s2 - 2p3. It contains 5 electrons.
Potassium has 4 orbitals. The atomic number of potassium is 19, therefore, potassium has 19 electrons. Orbital 1 holds 2 electrons, Orbital 2 holds 8 electrons, Orbital 3 holds 8 electrons, and Orbital 4 holds 1 electron. *Note: Potassium has 1 valence electron.
It has 1 electron revolving around 1 proton in the 1s orbital.It has 1 proton and 1 electron revolving in the 1s orbital
1 in the 4s orbital, 19 electrons in all (K has an atomic number of 19)
I assume you mean that orbital 1 has 2 electrons, orbital 2 has 8 and orbital 3 has 8. The electron configuration of this is 1s2 2s2 2p6 3s2 3p6 (2+2+6+2+6=18) 18 is the atomic number of 18Ar or Argon.
The Pauli exclusion principle would require that an electron sharing the same orbital would have to have opposite spin from the other particle in the pair. They therefore have different spin quantum numbers of +(1/2) and -(1/2)
This series is of the function f(x) = x2+1, starting with x=0.The next number in the series is 26. The number after that is 37.
1s and 2s orbitals differ in that 2s orbitals lie farther away from the nucleus in the next principle energy level. Other than that, they occupy the same shape of orbital, spherical, as indicated by the s.
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