The oxygen atom in a water molecule has a partially negative charge because oxygen is more electronegative than hydrogen. This causes the electrons in the covalent bonds to be pulled closer to the oxygen atom, giving it a partial negative charge.
The oxygen atom in a water molecule is partially negative due to its higher electronegativity compared to hydrogen. This results in a slight charge separation within the molecule, making oxygen slightly negative and hydrogen slightly positive.
The oxygen atom in a water molecule has a partial negative charge because it is more electronegative than the hydrogen atoms it is bonded to. This causes electron density to be pulled towards the oxygen atom, giving it a slight negative charge.
A water molecule has a positive area near the hydrogen atoms (due to partial positive charges) and a negative area near the oxygen atom (due to partial negative charges). This is because of the unequal sharing of electrons between the oxygen and hydrogen atoms in water.
The oxygen in a water molecule doesn't really have a "charge" per se. It is partially negative relative to the hydrogen atoms which are partially positive. The oxidation number of oxygen in water is 2-, however, but this isn't really a "charge".
Yes, each oxygen atom in a water molecule carries a slight negative charge due to differences in electronegativity between oxygen and hydrogen. This partial negative charge on the oxygen atoms results in the overall polar nature of water molecules.
The oxygen atom in a water molecule is partially negative due to its higher electronegativity compared to hydrogen. This results in a slight charge separation within the molecule, making oxygen slightly negative and hydrogen slightly positive.
The positive calcium ions in calcium chloride are attracted to the negative oxygen atom in the water molecule, while the negative chloride ions are attracted to the positive hydrogen atoms in the water molecule.
it says oxygen acts negativw so most likely hydrogen on the bottom acts positive
Slightly negative. The oxygen end of the water molecule is slightly negative because of oxygen's greater electronegativity. The two electrons of the hydrogens in covalent bonding spend more of their time in oxygen's valance shell.
The oxygen atom in a water molecule has a partial negative charge because it is more electronegative than the hydrogen atoms it is bonded to. This causes electron density to be pulled towards the oxygen atom, giving it a slight negative charge.
Oxygen attracts electrons more strongly than hydrogen does.
A water molecule has a positive area near the hydrogen atoms (due to partial positive charges) and a negative area near the oxygen atom (due to partial negative charges). This is because of the unequal sharing of electrons between the oxygen and hydrogen atoms in water.
Oxygen atoms in water molecules are the same as oxygen atoms in any other molecules; the definition of an oxygen atom is that it is an atom which has eight protons in its nucleus. Normally it has eight neutrons and eight electrons as well, but that can vary. It is only the eight protons which define it as oxygen.
The oxygen in a water molecule doesn't really have a "charge" per se. It is partially negative relative to the hydrogen atoms which are partially positive. The oxidation number of oxygen in water is 2-, however, but this isn't really a "charge".
The water molecule does not have a negative charge. The oxygen end of the molecule has a partial negative charge and the hydrogen end has a partial positive charge. This is because the oxygen atom is more electronegative than the hydrogen atoms, and tends to hold the shared electrons more tightly than the hydrogen atoms.
Yes, the oxygen atom in a water molecule has a slight negative charge because oxygen is more electronegative than hydrogen. This causes the shared electrons to be closer to the oxygen atom, giving it a partial negative charge.
Yes, each oxygen atom in a water molecule carries a slight negative charge due to differences in electronegativity between oxygen and hydrogen. This partial negative charge on the oxygen atoms results in the overall polar nature of water molecules.