There are 5 completely filled orbitals.
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actually there are 2 completely filled orbital shells in an argon atom the first has a max of two (filled) the second a max of 8 (filled) the third a max of 32 (missing 24)
This element would be chlorine, which has the electron configuration of:
1s22s22p63s23p5
Neurons occur only in animals, but an atom with an atomic number of 8 and mass number of 17 has 17 - 8 or 9 neutrons
Chlorine is a gas element. atomic number of it is 17.
1s22s22p63s23p5 = 17 electrons - so 3 main energy levels.. Subdivided there are 5 - 1s, 2s, 2p, 3s, 3p
This is a chemical element. You can find the how many electron in a single atom by using a Periodic Table.
3 full orbits with 1 valence electron
7
A carbon-carbon quadruple bond does not exist because that much electron density between the two nuclei would cause too much electrostatic repulsion. This prevents the electrons from grouping so tightly in such a small space. To find the actual bond order of a carbon-carbon bond, one would have to draw out a molecular orbital diagram. One would find that the molecular orbitals caused by the 1s and 2s atomic orbitals would have both bonding and antibonding orbitals filled, making them irrelevant to finding the bond order. The 2p orbitals give rise to two degenerate bonding pi orbitals, both of which are filled. Since there are no antibonding orbitals filled above the pi orbitals, the bond order is two.
That would be 1s2, 2s2, 2p6 are the 3 orbitals that are completely filled. The other one is not filled because it only has 1 configuration. Hopefully this help....if not I apologize. *PUMA #4*
I2 then FICl IBr
The first four: 1. Be 2. C 3. O 4. Ne How I found this: Since Helium (He) has an atomic number of 2, add two to the atomic number of Be. Since the atomic number of Be is 4, and the atomic number of Helium is 2, you would add four plus two, which equals six. Carbon has an atomic number of six, so therefore it would be your next answer. The formula is the atomic number of Helium plus the atomic number of element you are provided with equals the atomic number of your answer. In simpler terms: atomic number of He+atomic number= atomic number of answer
the number of protons in a single atom depends on the element. for example, hydrogen would have 1, helium would have 2, beryllium would have 3, and so on. the number of protons in a single atom depends on the element. for example, hydrogen would have 1, helium would have 2, beryllium would have 3, and so on.
The number of atoms in 1/2 gram of the chemical element copper is 4.7384X10^21. Copper has the atomic number 29 and its symbol is Cu.
A carbon-carbon quadruple bond does not exist because that much electron density between the two nuclei would cause too much electrostatic repulsion. This prevents the electrons from grouping so tightly in such a small space. To find the actual bond order of a carbon-carbon bond, one would have to draw out a molecular orbital diagram. One would find that the molecular orbitals caused by the 1s and 2s atomic orbitals would have both bonding and antibonding orbitals filled, making them irrelevant to finding the bond order. The 2p orbitals give rise to two degenerate bonding pi orbitals, both of which are filled. Since there are no antibonding orbitals filled above the pi orbitals, the bond order is two.
That would be 1s2, 2s2, 2p6 are the 3 orbitals that are completely filled. The other one is not filled because it only has 1 configuration. Hopefully this help....if not I apologize. *PUMA #4*
No. Atomic number is always a whole number. This would be the atomic mass.
It would have to have all of its electron orbitals filled and react with almost nothing chemically.
I2 then FICl IBr
You would subtract the atomic number from the mass number.
Helium is a mono-atomic element and has completely filled s-orbitals. So it is stable and non-reactive (chemically inert). Hence helium will not form any type of bonds with other elements.
The atomic number of Argon is 18. So 30 of them the Atomic Number would be 540.
Atomic number is about protons. It symbolises the protons an atom has.
The top left number is the atomic number
The first four: 1. Be 2. C 3. O 4. Ne How I found this: Since Helium (He) has an atomic number of 2, add two to the atomic number of Be. Since the atomic number of Be is 4, and the atomic number of Helium is 2, you would add four plus two, which equals six. Carbon has an atomic number of six, so therefore it would be your next answer. The formula is the atomic number of Helium plus the atomic number of element you are provided with equals the atomic number of your answer. In simpler terms: atomic number of He+atomic number= atomic number of answer