A new ionic species - Na- (it does not exist)
Perhaps you meant the loss of an electron? In this case, sodium readily loses an electron to form Na+.
Sodium will lose 1 electron to form a sodium ion.
Sodium will likely form a +1 cation, or sodium ion, by losing one electron to achieve a stable electron configuration.
When sodium reacts with bromine, they form sodium bromide. This is a redox reaction where sodium loses an electron to bromine, which gains an electron to form the bromide ion. The reaction is highly exothermic and can be violent if not controlled.
Sodium hydride, NaH is ionic and contains Na+ and H-
Yes, sodium and lithium can form an ionic compound. Both elements are metals that readily lose electrons to achieve a stable electron configuration. When sodium loses an electron and lithium loses an electron, they form sodium cations (Na+) and lithium cations (Li+), which can then combine with other anions to form ionic compounds.
No, sodium and chlorine do not form a covalent bond. They typically form an ionic bond, where sodium loses an electron to form a positive ion and chlorine gains an electron to form a negative ion, resulting in an attraction between the two ions.
A chloride ion has a larger radius than a sodium ion, because the chloride has an additional complete valence shell of electrons compared to a sodium ion, but a sodium atom has lost the only electron in this valence shell that the sodium atom ever included to form a sodium ion.
When sodium atoms react with iodine atoms, they undergo a redox reaction to form sodium iodide. Sodium atoms lose an electron to form Na+ ions, while iodine atoms gain an electron to form I- ions. These ions then combine to form sodium iodide crystals.
One example is sodium (metal) and chlorine (nonmetal). Sodium can lose an electron to form a sodium ion (Na+), while chlorine can gain an electron to form a chloride ion (Cl-). These ions then combine to form the ionic compound sodium chloride (NaCl).
lose an electron, forms Na+, sodium with a charge of plus one.
Yes, sodium and fluorine form an ionic bond to create sodium fluoride. Sodium has one electron to lose, while fluorine has one electron to gain, leading to the transfer of electron from sodium to fluorine resulting in the formation of an ionic bond.
A single electron to form Na+