FALSE
a. carbon - 4 b. iodine - 12 c. calcium - 2 d. gallium - 3
there are 12 electrons in carbon. you can find this out by looking at the "ATOMIC NUMBER"
Carbon has 2 core electrons. Core electrons are the inner electrons of an atom that are not involved in chemical bonding.
Carbon typically shares 4 electrons to complete its valence shell, forming covalent bonds with other atoms. Carbon has 4 valence electrons, so by sharing these electrons with other atoms, it can achieve a full octet and become more stable.
Carbon monoxide is a molecule consisting of two elements: carbon and oxygen.
Carbon has 2 electrons in it's first electron shell. All elements except hydrogen do.
it has 4 valence electrons
Carbon has the unique ability to form four strong covalent bonds due to its four valence electrons. This allows it to bond with a variety of other elements, creating a wide range of organic compounds with diverse structures and properties. Additionally, carbon's small size and intermediate electronegativity make it compatible with many different elements.
Carbon: 4Xenon: 0 Selenium: 6 Potassium: 1
Carbon has 6 electrons, allowing it to form a variety of bonds with other elements, including single, double, and triple bonds. This flexibility in bonding allows carbon to form the diverse and complex molecules found in living organisms and many other compounds.
a. carbon - 4 b. iodine - 12 c. calcium - 2 d. gallium - 3
Carbon atoms have only 4 electrons in it's valence shell. To reach a more stable state (ie the higher level noble gas configuration) it wants to have a full octet (8 electrons in it's valence shell). Therefore, it can bond with 4 other elements.
if its not an ion it has 6
How many valence electrons do transition elements have?
Carbon has 4 outermost electrons.
Carbon can share up to four electrons with other elements in covalent bonding. This allows carbon to form strong covalent bonds and participate in various organic compounds.
Carbon can bond to many elements simultaneously because it has four valence electrons, allowing it to form strong covalent bonds with multiple atoms at the same time. This versatility enables carbon to create a wide variety of complex and stable molecules.