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Water molecules are attracted to each other through cohesion, causing them to minimize their surface area when in contact with another surface. This surface tension creates the spherical shape on hydrophobic surfaces like wax instead of spreading out flat. This shape allows the water droplet to minimize contact with the surface and behave like a single cohesive unit.
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Why does water form a spherical on wax paper instead of spreading out flat?
Surface tension attracts water molecules inward.
Why does water form a spherical shape on wax paper instead pf spreading out flat?
Water forms a spherical shape on wax paper due to surface tension, which causes water molecules to stick together and minimize their contact with the surface. This results in the water forming a droplet shape to reduce the surface area in contact with the wax paper.
What does water form a spherical shape on wax paper instead of spreading out flat?
Water molecules are polar, with a positive and negative end, meaning they are attracted to each other through hydrogen bonding. This cohesive force allows water to form a spherical shape on wax paper as it minimizes the surface area and potential energy of the water droplet. Additionally, the hydrophobic nature of wax paper repels water, preventing it from spreading out flat.
Why does water form a spherical shape on wax paper instead of spreading out?
two things. surface tension and gravity. surface tension is the molecular bond of the water binding the molecules together on the surface of the droplet, preventing them from spreading out. The addition of a solute (like soap) to the water can break these bonds causing it to spread. Also the gravity of the water molecules acting on one another want to form a spherical shape, where the molecules on the surface of the droplet will be equidistant from the center of gravity of the droplet. The water droplet is too small for the force of earth's gravity to overcome the surface tension, therefore becoming more negligible as the droplets become smaller. The wax in the wax paper prevents the paper from absorbing the water.
What is the scientific explanation behind the formation of the drop shape in water?
The drop shape in water is formed due to surface tension, which is the cohesive force between water molecules at the surface. This force causes the water molecules to stick together and form a spherical shape, as it minimizes the surface area and maximizes the volume of the drop.
Why does water form a spherical shape on wax paper instead spreading out flat?
Surface tension attracts water molecules inward.
Why does water form a spherical shape on wax paper-instead of spreading out flat?
Surface tension attracts water molecules inward.
Why does water form spherical shape on wax paper instead of spreading out flat?
Surface tension attracts water molecules inward.
Why does water form a spherical shape on wax paper instead of spreading flat?
Surface tension attracts water molecules inward.
Why does water form spherical shape on a wax paper instead of spreading out flat?
Surface tension attracts water molecules inward.
Why does water form a spherical on wax paper instead of spreading out flat?
Surface tension attracts water molecules inward.
Why does water form a spherical shape on wax paper instead pf spreading out flat?
Water forms a spherical shape on wax paper due to surface tension, which causes water molecules to stick together and minimize their contact with the surface. This results in the water forming a droplet shape to reduce the surface area in contact with the wax paper.
Why does water form a spherical shape wax paper instead of spreading out flat?
Surface tension attracts water molecules inward.
What does water form a spherical shape on wax paper instead of spreading out flat?
Water molecules are polar, with a positive and negative end, meaning they are attracted to each other through hydrogen bonding. This cohesive force allows water to form a spherical shape on wax paper as it minimizes the surface area and potential energy of the water droplet. Additionally, the hydrophobic nature of wax paper repels water, preventing it from spreading out flat.
Why does water make a spherical shape on wax paper instead of spreading out flat?
The reason why water makes a (more or less) spherical shape on wax paper rather than just spreading out into a thin layer, is that water has a greater attraction to itself, than it does to wax paper. Water's self-attracting property is known as surface tension.
Why do water drops bead on a freshly waxed surface?
Water drops bead on a freshly waxed surface because the wax creates a hydrophobic barrier that repels water. This causes the water to form into beads instead of spreading out. The surface tension of the water also helps to maintain the spherical shape of the droplets on the waxed surface.
Why does water form a spherical shape on wax paper instead of spreading out?
two things. surface tension and gravity. surface tension is the molecular bond of the water binding the molecules together on the surface of the droplet, preventing them from spreading out. The addition of a solute (like soap) to the water can break these bonds causing it to spread. Also the gravity of the water molecules acting on one another want to form a spherical shape, where the molecules on the surface of the droplet will be equidistant from the center of gravity of the droplet. The water droplet is too small for the force of earth's gravity to overcome the surface tension, therefore becoming more negligible as the droplets become smaller. The wax in the wax paper prevents the paper from absorbing the water.
