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Cl:Cl Since each of the chlorines in the molecule is sharing one electron with the other they both get an octect. They only share one of their electrons with the other. So 7+1=8The chlorine atoms could share a pair of valence electrons.
Two chlorine atoms can bond together to form Cl2 because each chlorine atom has seven valence electrons and needs one more electron to complete its outer electron shell. By sharing one electron each, the atoms can achieve a stable electron configuration with a full outer shell, forming a single covalent bond between them.
Sodium and chlorine mixed together forms sodium chloride, which is table salt. Sodium gives up an electron to chlorine, forming an ionic bond between the two elements.
Yes, rubidium and chlorine can bond together to form rubidium chloride. Rubidium will donate its valence electron to chlorine, resulting in the formation of an ionic bond between them.
Chlorine's charge becomes negative after accepting an electron because it gains one extra electron, turning it into a chloride ion with a -1 charge.
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Cl:Cl Since each of the chlorines in the molecule is sharing one electron with the other they both get an octect. They only share one of their electrons with the other. So 7+1=8The chlorine atoms could share a pair of valence electrons.
Chlorine can form anions by gaining one electron to achieve a full outer shell of electrons. This extra electron gives the chlorine atom a negative charge, resulting in the formation of the chloride ion (Cl-).
Two chlorine atoms can bond together to form Cl2 because each chlorine atom has seven valence electrons and needs one more electron to complete its outer electron shell. By sharing one electron each, the atoms can achieve a stable electron configuration with a full outer shell, forming a single covalent bond between them.
Sodium and chlorine mixed together forms sodium chloride, which is table salt. Sodium gives up an electron to chlorine, forming an ionic bond between the two elements.
Yes, rubidium and chlorine can bond together to form rubidium chloride. Rubidium will donate its valence electron to chlorine, resulting in the formation of an ionic bond between them.
The electron dot diagram for chlorine gas (Cl2) shows two chlorine atoms sharing a pair of electrons to form a covalent bond. Each chlorine atom has 7 valence electrons, so when they come together, they each contribute one electron to the shared pair.
Yes, chlorine is a diatomic molecule because it consists of two chlorine atoms covalently bonded together. Each atom shares one electron with the other to complete their outer electron shell and become more stable.
No, chlorine is not a simple molecule. It exists as a diatomic molecule, meaning it consists of two chlorine atoms bonded together. Each chlorine atom shares one electron with the other, forming a stable molecule with a covalent bond.
Yes, potassium and chlorine will form an ionic compound called potassium chloride. Potassium will donate its electron to chlorine to achieve a stable electron configuration, resulting in the formation of K+ and Cl- ions that are held together by electrostatic forces.
Sodium has one electron in its outer shell, which it wants to lose, while chlorine has seven electrons in its outer shell, which it wants to gain. When they come together, sodium loses an electron to chlorine, forming a stable ionic bond between sodium cation and chlorine anion, resulting in the formation of sodium chloride (table salt).