Potassium will lose electrons when reacting with bromine. Potassium is a metal and tends to lose electrons to achieve a stable electron configuration, while bromine is a nonmetal that tends to gain electrons to achieve a stable electron configuration.
Boron can lose 3 electrons from its valence shell that is 2 in 2s & 1 in 2p sub-shell, wheras it cannot gain electron b'coz of its electropositive nature & it has less electron affinity.
Atoms can react with one another to achieve a stable electron configuration, usually by either gaining, losing, or sharing electrons. The goal is to have a full outer shell, which tends to be 8 electrons for most atoms. However, some atoms may require fewer electrons, like hydrogen which achieves stability with 2 electrons.
Bromine, being in the second column from the rigth of the periodic table has a high electronegativity so when it forms compounds it tends to gain electrons, in other words, it is a nonmetal. While metals, which have low electronegativities tend to lose electrons
Tellurium tends to gain electrons in chemical reactions to achieve a full outer shell and attain the stable electron configuration of a noble gas. It typically forms -2 oxidation state by gaining two electrons.
Yes, bromine tends to react by gaining electrons to achieve a stable electron configuration. It is a halogen and has seven valence electrons, so it typically gains one electron to complete its octet and attain a stable electronic configuration.
No, chlorine tends to react by gaining electrons. Chlorine is a non-metal and it typically gains one electron to achieve a full octet and attain a stable electron configuration.
Potassium will lose electrons when reacting with bromine. Potassium is a metal and tends to lose electrons to achieve a stable electron configuration, while bromine is a nonmetal that tends to gain electrons to achieve a stable electron configuration.
No, chlorine typically reacts by gaining electrons rather than losing them. Chlorine is a halogen and tends to gain one electron to achieve a full outer electron shell, forming Cl- ions in ionic compounds.
Bromine gains one electron to achieve a full outer electron shell. It tends to form an anion with a charge of -1.
Bromine tends to gain one electron to achieve a stable electron configuration, making it an electron acceptor (accepts one electron).
It can do both. It gains electrons in Phosphene, loses electrons in Phosphate.
Bromine is a nonmetal element, so it cannot form a metallic bond with another bromine atom. Metallic bonds typically occur between metal atoms by sharing their valence electrons in a sea of delocalized electrons. Bromine tends to form covalent bonds by sharing electrons with other nonmetal atoms.
Bromine has the greatest tendency to attract electrons among the elements listed. This is because it is a halogen and located in group 17 of the periodic table, meaning it has a high electron affinity and tends to gain electrons to achieve a stable electron configuration.
No, the chemical properties of calcium and bromine are not similar. The melting point for Calcium is 8390C, bromine's is -7.250C. Calcium's boiling point is 1484°C, bromine's is 58.750C. etc. Calcium is a silvery white, soft alkaline earth metal. Although none of the alkaline earths occur free in nature, calcium compounds are abundant. Bromine is a reddish-brown liquid, and it has a metallic luster in solid form.
Boron can lose 3 electrons from its valence shell that is 2 in 2s & 1 in 2p sub-shell, wheras it cannot gain electron b'coz of its electropositive nature & it has less electron affinity.
Atoms can react with one another to achieve a stable electron configuration, usually by either gaining, losing, or sharing electrons. The goal is to have a full outer shell, which tends to be 8 electrons for most atoms. However, some atoms may require fewer electrons, like hydrogen which achieves stability with 2 electrons.