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What force of attraction helps move water upthrough plants?
The force of attraction that helps move water up through plants is called capillary action. This process occurs due to the cohesive and adhesive properties of water, which allow it to be drawn up through the small tubes in plants called xylem.
How does cohesion explain the mechanism by which plants are able to transport water to the top of their structures?
Cohesion is the attraction between water molecules that allows them to stick together. In plants, this cohesion helps water molecules move up from the roots to the leaves through a process called capillary action. As water evaporates from the leaves, it creates a pull that helps draw more water up through the plant's vascular system. This cohesive force is essential for the efficient transport of water in plants.
What is the difference between specific gravity and gravity?
Specific gravity is the ratio of a substance's density to that of a standard, usually water. Gravity is a force of attraction between two bodies. We usually think of the gravitational force of the earth as the force of attraction for bodies on the surface of the earth, but all objects exert a tiny attraction for each other.
What are the force present in water?
In water, the main forces present are cohesion (attraction between water molecules), adhesion (attraction between water molecules and other substances), surface tension (resulting from cohesion), and buoyancy (upward force exerted on objects immersed in water). These forces play key roles in various physical and chemical properties of water.
What property of water gives rise to capillary action?
The property of water that gives rise to capillary action is adhesion, which is the attraction between water molecules and the molecules of the material making up the capillary tube. This leads to water being pulled up the tube, against the force of gravity, due to the cohesive forces between water molecules.
What force of attraction helps move water upthrough plants?
The force of attraction that helps move water up through plants is called capillary action. This process occurs due to the cohesive and adhesive properties of water, which allow it to be drawn up through the small tubes in plants called xylem.
Which force of attraction helps move water through plants?
hydrogen bonds
How does cohesion explain the mechanism by which plants are able to transport water to the top of their structures?
Cohesion is the attraction between water molecules that allows them to stick together. In plants, this cohesion helps water molecules move up from the roots to the leaves through a process called capillary action. As water evaporates from the leaves, it creates a pull that helps draw more water up through the plant's vascular system. This cohesive force is essential for the efficient transport of water in plants.
What helps move water up in plants?
Cohesion force among water molecules and transpiration pull.
What helps plants grow water or coffee?
Water helps plants grow
What force helps water move through plants?
Capillary action, transpiration, and root pressure move water up through the plant.
What force enables the stem to absorb water?
Adhesion and Cohesion or cohesive attraction or cohesive force
What force helps move water up through plants?
Capillary action, transpiration, and root pressure move water up through the plant.
What force of attraction is responsible for the dissolution of an ionic crystal in water?
The force of attraction responsible for the dissolution of an ionic crystal in water is the electrostatic force between the ions in the crystal and the water molecules. Water molecules surround and solvate the ions, causing them to break apart from the crystal lattice and become dispersed in the water.
The combined force of attraction among water molecules and with the molecules of surrounding materials is called?
The combined force of attraction among water molecules and with the molecules of surrounding materials is called adhesion.
What absorbs water and helps plants grow?
The roots of plants absorb water from the soil, which helps them grow and thrive.
Does water expand when heated and why?
Yes... When water is heated, the intermolecular force of attraction between water atoms become weak and they start losing the intermolecular force of attraction... at temperature known as boiling point of water this intermolecular force become so weak that water lose its state and converts into gasious state... but this expansion is not considerable... :)
