Cohesion force among water molecules and transpiration pull.
Capillary action, transpiration, and root pressure move water up through the plant.
Yes, hydrogen bonds between water molecules create cohesion, allowing water to move up plants through capillary action. This cohesion helps water molecules stick together and travel through the plant's vascular system, such as through xylem vessels.
through xylum with the help of transpiration pull
Plants absorb water and minerals through their roots via osmosis. The minerals are then transported through the xylem vessels in the plant to the leaves. Transpiration, the process of water evaporating from the leaves, creates a pull that helps to move the minerals up to the tips of the leaves.
there are connective tissues in plants which helps them to transport water and nutrients.xylem helps plants ,in transporting water and minerals . and phloem helps plants to transport food from one place to another.
Capillary action, transpiration, and root pressure move water up through the plant.
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.
Capillary action, transpiration, and root pressure move water up through the plant.
Capillary action, which is the result of adhesive forces between water and the walls of narrow tubes, helps move water up to plants through their roots and stems. This force allows water to defy gravity and be pulled upward against the force of gravity.
hydrogen bonding
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it can move up the xylem and in both directions in the phloem
hydrogen bonding
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.
Yes, hydrogen bonds between water molecules create cohesion, allowing water to move up plants through capillary action. This cohesion helps water molecules stick together and travel through the plant's vascular system, such as through xylem vessels.
through xylum with the help of transpiration pull
Capillary action and transpiration pull water up the tree. Capillary action is the ability of water to move upward through small tubes in plants. Transpiration is the process by which water evaporates from the leaves, creating a negative pressure that helps to pull water up from the roots.