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Bromine has 7 electrons in its outermost energy level.
The electronic configuration of Bromine in its ground state is: 1s2 2s2p6 3s2p6d10 4s2p5. Therefore the principal quantum number for the outermost electrons in a Bromine atom is 4.
The principal quantum number for the outermost electrons in a Bromine atom in the ground state is 4. This is because the outermost electrons of an atom are located in the highest energy level, and for Bromine (with 35 electrons), the outermost electrons are in the 4th energy level.
Bromine is paramagnetic. This is because the 4p subshell has a value of 4p5. 5 electrons in a p subshell (which has space for 6), means the last electron is unpaired. The unpaired electron gives it the property of paramagnetism. Alternatively, Selenium is diamagnetic, as it has the outer subshell 4p4, meaning no electrons are unpaired.
Bromine loses its outermost electrons more easily than krypton since bromine is in Group 17 of the periodic table (halogens), which tend to gain an electron to achieve a stable electron configuration. Krypton, on the other hand, is a noble gas in Group 18 and has a full outer shell, making it less likely to lose electrons.
Bromine has 7 electrons in its outermost energy level.
The electronic configuration of Bromine in its ground state is: 1s2 2s2p6 3s2p6d10 4s2p5. Therefore the principal quantum number for the outermost electrons in a Bromine atom is 4.
The element with its outermost electron in the 7s1 orbital is francium (element 87). Its outermost electron is in the 7th energy level (n=7), specifically in the 7s subshell.
The subshell farthest from the nucleus is the outermost shell, which is also known as the valence shell. This shell contains the valence electrons of an atom and determines its chemical properties.
The principal quantum number for the outermost electrons in a Bromine atom in the ground state is 4. This is because the outermost electrons of an atom are located in the highest energy level, and for Bromine (with 35 electrons), the outermost electrons are in the 4th energy level.
Seven, as does any other halogen element.
Bromine is paramagnetic. This is because the 4p subshell has a value of 4p5. 5 electrons in a p subshell (which has space for 6), means the last electron is unpaired. The unpaired electron gives it the property of paramagnetism. Alternatively, Selenium is diamagnetic, as it has the outer subshell 4p4, meaning no electrons are unpaired.
the elements belonging to group 1 and 2 of the Periodic Table are s-block elements. it includes elements in which the outermost subshell is s and that have 1 or 2 electrons in their outermost shell.
its d-block i.e. elements whose outermost electrons lie in d-subshell.
Bromine loses its outermost electrons more easily than krypton since bromine is in Group 17 of the periodic table (halogens), which tend to gain an electron to achieve a stable electron configuration. Krypton, on the other hand, is a noble gas in Group 18 and has a full outer shell, making it less likely to lose electrons.
Bromine (Br) has 35 electrons in total. It has 7 valence electrons (outermost shell) and 28 core electrons (inner electron shells).
The maximum number of unpaired electrons in the s subshell is 2, in the p subshell is 6, in the d subshell is 10, and in the f subshell is 14. This is based on the maximum number of electrons that can occupy each subshell according to the Aufbau principle and the Pauli exclusion principle.