ammonia
Water molecule is an important and good example of polar covalent molecule
A polar molecule is a molecule in which the distribution of electrons is uneven, resulting in one end of the molecule being slightly positively charged and the other end being slightly negatively charged. This creates a separation of electric charge, making the molecule polar. Water is a common example of a polar molecule.
AnswerH2O, otherwise known as water.
Water IS a polar molecule.
Water molecules have a partial positive charge on the hydrogen atoms and a partial negative charge on the oxygen atom, causing it to be a polar molecule. This polarity allows water to form hydrogen bonds with other polar molecules, such as those containing oxygen or nitrogen, leading to attraction between water and other polar molecules.
Water molecule is an important and good example of polar covalent molecule
Water molecule is an important and good example of polar covalent molecule
A polar molecule is a molecule in which the distribution of electrons is uneven, resulting in one end of the molecule being slightly positively charged and the other end being slightly negatively charged. This creates a separation of electric charge, making the molecule polar. Water is a common example of a polar molecule.
A polar molecule...such as water. The oxygen molecules pulls the electrons closer, causing the oxygen to have a more negative charge and the two hydrogen atoms to have more positive charges. this is very important in the bonding of water molecules to other water molecules.
No, Dihydrogen monoxide (water) is a polar molecule. It has a partial positive charge on the hydrogen atoms and a partial negative charge on the oxygen atom, resulting in an uneven distribution of electrons.
AnswerH2O, otherwise known as water.
Water IS a polar molecule.
Water is a polar molecule.
A polar molecule is a molecule with slight opposite charges. Water is a polar molecule which means that each water molecule is attracted to other water molecules which accounts for waters surface tension or cohesion.
The oxygen atom, which is negatively charged, is on one end ("pole") of the molecule, and the hydrogen atoms, which are positively charged, are on the other pole.
Water molecules have a partial positive charge on the hydrogen atoms and a partial negative charge on the oxygen atom, causing it to be a polar molecule. This polarity allows water to form hydrogen bonds with other polar molecules, such as those containing oxygen or nitrogen, leading to attraction between water and other polar molecules.
A polar compound is a molecule that has a slight positive and negative charge due to differences in electronegativity between its atoms. This results in an uneven distribution of electrons within the molecule. An example of a polar compound is water (H2O).