Water, when its in the xylem, is coheisive. They stick together and get sucked up together so they can to the leaves and other parts of the plant.
Water and minerals are transported from the roots to the leaves through the xylem tissue in plants. This process is called transpiration and helps provide essential nutrients and support for the plant's growth and development.
Evaporation from the leaves is called transpiration.
Plants primarily absorb water through their roots from the soil, which is then transported through the plant's vascular system to reach its leaves. The process of water movement from the roots to the leaves is known as transpiration.
When plant roots are submerged in water with ink, the ink first shows up in the leaves through a process called transpiration. Transpiration is the movement of water from the roots, through the stem, and to the leaves, where it evaporates into the air. As water containing the ink is taken up by the roots and transported to the leaves, the ink will eventually be visible in the leaf tissue as the water evaporates, leaving behind the ink molecules.
Water is absorbed by the plant's roots from the soil and transported through the stem to the leaves via specialized tissues called xylem. This process, known as transpiration, helps supply water and nutrients to the leaves for photosynthesis and other metabolic processes.
Water and minerals are transported from the roots to the leaves through the xylem tissue in plants. This process is called transpiration and helps provide essential nutrients and support for the plant's growth and development.
answer is the vascular system
Water is absorbed by plant roots and transported, by capillary action, through the fibrous material of the plant stem, to the leaves.
Evaporation from the leaves is called transpiration.
minerals
Plants primarily absorb water through their roots from the soil, which is then transported through the plant's vascular system to reach its leaves. The process of water movement from the roots to the leaves is known as transpiration.
Water and nutrients are transported to the leaves by the xylem tissue in plants. These essential substances are absorbed by the roots and then move upward through the plant's vascular system to reach the leaves where photosynthesis occurs.
Water enters the leaves through the roots via the xylem tissue, a system of water-conducting cells. Minerals are absorbed from the soil by the roots and transported through the xylem with water. These substances then travel from the roots, through the stem, and eventually reach the leaves where they are used for photosynthesis and other metabolic processes.
Xylem carries water from the roots to toward the leaves. Phloem carries sugar and nutrients from the leaves toward the roots. Oxygen is transported by diffusion, NOT by the liquid transport system.
Water is absorbed by plants from the soil through their roots, and it is then transported to the leaves where it is used in the process of photosynthesis.
Water is transported from the roots of a plant to its leaves via the xylem (essentially a tube whose purpose is to transport water). Water is allowed to "travel up" the stem via cohesion and adhesion; water coheres to other water molecules and it adheres to the xylem.
The water for photosynthesis comes from water that is absorbed from the soil by the roots of the plant and transported upward to the leaves through the vessels called xylem. Refer to the related link for an illustration of the materials for photosynthesis and where they come from.