No, water is bent - it has a "V" shape.
The cause is the polar character of water molecule.
because it is
In a molecular model, each sphere typically represents an atom, with the size and color of the sphere indicating the type of atom (e.g., carbon, oxygen, nitrogen). The spheres are connected by rods or lines that represent the chemical bonds between the atoms, illustrating how they are linked in the molecule. This visual representation helps to convey the molecule's structure, shape, and the spatial arrangement of its atoms.
The shape of a molecule can affect its ability to interact with water molecules through hydrogen bonding. A molecule that is more polar due to its shape is more likely to be soluble in water, while nonpolar molecules may not be soluble in water. Understanding the shape of a molecule helps predict its solubility behavior in water.
Water is a polar molecule because it has a bent shape with oxygen being more electronegative than hydrogen, creating an uneven distribution of charge. This results in a partial negative charge on the oxygen atom and partial positive charges on the hydrogen atoms, making water a polar molecule.
water molecule
Since a sphere is round it is a shape without a face.
The cause is the polar character of water molecule.
The cause is the polar character of water molecule.
because it is
A water molecule is considered a polar molecule because of its shape. That is, its poles contain opposing charges, the positive and negative charge.
yes it does, because the oxygen contains lone pairs which makes the water molecule a bent geometry shape.
The shape of a globe is a SPHERE.
It's a polar molecule! -Jessica King
A water molecule is considered to be V(or bent) shape.
The surface tension of water is such that it will attempt to create the smallest surface area possible. That will always be a sphere.
A bubble is a thin film of soapy water. The film that makes the bubble has three layers. A thin layer of water is sandwiched between two layers of soap molecules. Each soap molecule is oriented so that its polar (hydrophilic) head faces the water, while its hydrophobic hydrocarbon tail extends away from the water layer. No matter what shape a bubble has initially, it will try to become a sphere. The sphere is the shape that minimizes the surface area of the structure, which makes it the shape that requires the least energy to achieve.