theatomic number of Antimony (Sb) is 51 and its atomic weight is 121.760. Determine the following: # The number of neutrons # the number of valence eletrons # the type of element
theatomic number of Antimony (Sb) is 51 and its atomic weight is 121.760. Determine the following: # The number of neutrons # the number of valence eletrons # the type of element
An atom of antimony in its ground state has 3 unpaired electrons.
You can determine how many electrons are gained or lost by looking at the atom's charge. If the atom gains electrons, it becomes negatively charged; if it loses electrons, it becomes positively charged. The difference between the atom's original and final charge tells you how many electrons were gained or lost.
Antimony needs 3 electrons to fill its valence shell, which has 5 electron slots. Antimony typically forms compounds by gaining 3 electrons to achieve a stable octet configuration.
-3 electrons are gained,i.e,3 electrons are lost by Al and 3 electrons are gained by the other atom nearby.
One electron was lost to form Cu+ from the neutral Cu atom.
Usually three will be lost.
Antimony has 5 valence electrons.
There is zero NET loss or gain of electrons
An atom of antimony has 5 outer shell electrons. Antimony is in group 15 of the periodic table, so it has 5 valence electrons.
An atom of antimony in its ground state has 3 unpaired electrons.
it has 51 electrons
51 electrons
You can determine how many electrons are gained or lost by looking at the atom's charge. If the atom gains electrons, it becomes negatively charged; if it loses electrons, it becomes positively charged. The difference between the atom's original and final charge tells you how many electrons were gained or lost.
Only three electrons.
the oxidation number
-3 electrons are gained,i.e,3 electrons are lost by Al and 3 electrons are gained by the other atom nearby.
If there are 4 electrons and 4 protons, the atom is electrically neutral since the positive charges from the protons balance out the negative charges from the electrons. No electrons are lost or gained in this scenario.