Strontium (Sr)
The formula for the number of electrons you can have in each shell is 2n^2 (2 times n squared) where n is the energy level (also called the Principal Quantum Number). So, L1 = 2 x (1x1) = 2 L2 = 2 x (2x2) = 8 L3 = 2 x (3x3) = 18 L4 = 2 x (4x4) = 32 L5 = 2 x (5x5) = 50 So, 2 + 8 + 18 + 32 + 50 = 110. Note that the above tells the maximum number, not necessarily the number for a particular element. An element can move on to another (higher) shell without having completely filled a lower shell. To find out for sure about a particular element, you need to consult an electron configuration table for that element.
The formula to determine the number of electrons in an energy level is 2n2, where n is the number of the energy level. For the fifth energy level, n=5. So the total number of electrons possible in the fifth energy level is 2(52) = 50.
A maximum of 110. But for any given element, each energy level is not necessarily filled completely before moving on to the next one, so you have to look up the electron configuration for each one to be sure how many electrons it has in each of its shells.
The Fifth Element was released on 05/09/1997.
Atoms with atomic number five have five electrons. Since the atomic number represents the number of protons, which is equal to the number of electrons in a neutral atom, there are five electrons in the outer shell as well.
Rubidium
The formula for the number of electrons you can have in each shell is 2n^2 (2 times n squared) where n is the energy level (also called the Principal Quantum Number). So, L1 = 2 x (1x1) = 2 L2 = 2 x (2x2) = 8 L3 = 2 x (3x3) = 18 L4 = 2 x (4x4) = 32 L5 = 2 x (5x5) = 50 So, 2 + 8 + 18 + 32 + 50 = 110. Note that the above tells the maximum number, not necessarily the number for a particular element. An element can move on to another (higher) shell without having completely filled a lower shell. To find out for sure about a particular element, you need to consult an electron configuration table for that element.
For fermium: 30 electrons.
The formula to determine the number of electrons in an energy level is 2n2, where n is the number of the energy level. For the fifth energy level, n=5. So the total number of electrons possible in the fifth energy level is 2(52) = 50.
"Life" was the fifth element...
For fermium: 30 electrons.
The fifth electron shell, also known as the fifth energy level or n=5, can hold a maximum of 50 electrons. This is calculated using the formula 2n^2, where n is the principal quantum number.
A maximum of 110. But for any given element, each energy level is not necessarily filled completely before moving on to the next one, so you have to look up the electron configuration for each one to be sure how many electrons it has in each of its shells.
The Fifth Element was released on 05/09/1997.
The maximum number of electrons that can fit in an atom's fifth energy level is 50. This is derived from the formula 2n^2, where n is the energy level number (5 in this case). Thus, 2 * 5^2 = 50.
The element in the fifth period with the highest ionization energy is xenon. Ionization energy generally increases across a period from left to right, so xenon, being on the far right of the period, has the highest ionization energy.
The duration of The Fifth Element is 2.1 hours.