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Answer :
The height of the solvent pulled into the capillary tube and the curvature of the meniscus is connected with the polarity of solvents in many ways.
Let's explore each of these connections in detail below:
1. Capillary Tube: When a glass capillary tube is dipped in a liquid, the liquid rises up the tube. The height to which it rises is determined by the adhesive forces that cause the liquid to stick to the walls of the capillary tube. When the adhesive forces are greater than the cohesive forces that cause the liquid molecules to stick to one another, the liquid is said to have a positive meniscus and will rise up the capillary tube.
2. Polarity of Solvents: It determines the strength of the adhesive forces that cause the liquid to stick to the walls of the capillary tube. Polar solvents tend to have stronger adhesive forces and will rise higher up the capillary tube than nonpolar solvents.
3. Curvature of the Meniscus: The curvature of the meniscus depends on the balance between the adhesive and cohesive forces acting on the liquid. If the adhesive forces are stronger than the cohesive forces, the meniscus will be concave, meaning it will be curved downward. If the cohesive forces are stronger than the adhesive forces, the meniscus will be convex, meaning it will be curved upward.
In general, the meniscus will be more concave when the liquid is polar and less concave when the liquid is nonpolar. Thus, the height to which the solvent rises the capillary tube and the curvature of the meniscus are both related to the polarity of the solvent.
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Final answer:
The polarity of solvents affects capillary action, determining whether a liquid will rise or fall in a capillary tube and the shape of the meniscus. Polar liquids like water rise and form a concave meniscus, whereas nonpolar liquids like mercury fall and form a convex meniscus.
Explanation:
The meniscus's curvature, capillary action, the height of the liquid rise in a capillary tube, and solvent polarity are all closely related. Strong adherence to glass and strong intermolecular cohesion characterize polar molecules such as water, which are dragged up a glass capillary and typically create a concave meniscus. This happens as a result of the cohesive forces within the water molecules being outweighed by the adhesive forces between the glass and the water, which allow the water to rise in the capillary until the force of gravity balances the adhesive upward pull.
Conversely, nonpolar materials such as mercury have cohesive forces with the glass that are stronger than adhesive forces, producing a convex meniscus. Because of the high surface tension in mercury, the liquid in the capillary drags itself downward to reduce contact with the glass. The surface tension of a liquid in a capillary tube directly determines how high it rises or falls, while the capillary tube's radius and the density of the liquid have an inverse relationship.
