No, a molecule of oxygen (O2) does not have a net charge because it consists of two oxygen atoms sharing electrons equally to form a stable covalent bond.
No, h2 does not have a net charge. It is a neutral molecule.
The bonds in a water molecule are covalent bonds, where electrons are shared between the oxygen and hydrogen atoms. These bonds are polar, with the oxygen atom being more electronegative, leading to a slight negative charge on the oxygen and a slight positive charge on the hydrogen atoms.
The net charge of an oxygen ion is typically -2. In its neutral state, oxygen has 6 protons and 6 electrons, giving it a net charge of 0. When it gains 2 electrons to become an ion, it carries a net charge of -2.
Yes, acetone has a net dipole moment because it is a polar molecule. This is due to the unequal sharing of electrons between the carbon, hydrogen, and oxygen atoms in acetone, resulting in a partial negative charge on the oxygen atom and a partial positive charge on the carbon and hydrogen atoms.
The silicon-oxygen tetrahedron in minerals like quartz has a net -4 charge because each oxygen ion contributes 2 negative charges, while silicon has a 4+ charge. This results in a net charge of -4 for the tetrahedron as a whole.
No, h2 does not have a net charge. It is a neutral molecule.
It is net neutral but the oxygen carries a delta negative charge and the hydrogens delta positives so it is polar
The bonds in a water molecule are covalent bonds, where electrons are shared between the oxygen and hydrogen atoms. These bonds are polar, with the oxygen atom being more electronegative, leading to a slight negative charge on the oxygen and a slight positive charge on the hydrogen atoms.
The phenyl group in phenol has no net charge as it is a neutral group. The charge on the phenol molecule is -1 due to the negatively charged oxygen atom present in the hydroxyl group.
Water is a neutral molecule, meaning it has no net charge. The oxygen atom in a water molecule has a slight negative charge, while the hydrogen atoms have a slight positive charge, but overall the molecule is neutral.
Fluorine oxide (OF2) is not a neutral molecule; it is a polar molecule with a net dipole moment due to the difference in electronegativity between oxygen and fluorine. In this compound, oxygen is more electronegative than fluorine, leading to a partial negative charge on the oxygen atom and partial positive charges on the fluorine atoms. Therefore, while the overall charge of the molecule is neutral, it exhibits polar characteristics.
The net charge of an oxygen ion is typically -2. In its neutral state, oxygen has 6 protons and 6 electrons, giving it a net charge of 0. When it gains 2 electrons to become an ion, it carries a net charge of -2.
it says oxygen acts negativw so most likely hydrogen on the bottom acts positive
Yes, acetone has a net dipole moment because it is a polar molecule. This is due to the unequal sharing of electrons between the carbon, hydrogen, and oxygen atoms in acetone, resulting in a partial negative charge on the oxygen atom and a partial positive charge on the carbon and hydrogen atoms.
The silicon-oxygen tetrahedron in minerals like quartz has a net -4 charge because each oxygen ion contributes 2 negative charges, while silicon has a 4+ charge. This results in a net charge of -4 for the tetrahedron as a whole.
Yes, glucose is a nonionic molecule. It consists of carbon, hydrogen, and oxygen atoms in a neutral state, meaning it does not carry a net electrical charge.
An oxygen atom would become O-2 by sharing two electrons with another oxygen atom, forming a stable oxygen molecule. This sharing of electrons creates a double bond between the two oxygen atoms, resulting in the formation of a molecule with a net charge of zero.