hydrogen bonds
Transpiration is the driving force that pulls H20 through a plant. Transpiration is the loss of water vapor from aerial portions of the plant (specifically the leaves).
Capillary action. It occurs when the forces of cohesion, adhesion, and surface tension are greater than the force of gravity.
There are in fact two methods employed in plants which assist water to travel up the stem (in the xylem vessels).Hydrogen bonding seems to be the primary driving force water being drawn up the xylem vessels where weak bonds form between the Hydrogen and Oxygen atoms of the water molecule's. This system works in conjunction with transpirational pull- where water is lost from the leaves through transpiration, more water molecules are drawn in behind them to as replacements.Capillary action, this is the ability of water travel up narrow tubes against the force of gravity and is due to the adhesive and cohesive interaction between the tubes and the liquid.Note: Osmosis is not responsible for drawing water up the stems of the plants, this is only works where there are differences in water potential and where a semipermeable membrane is in place. In other words, this works to draw water into the roots, but does not play a roll in transporting it up the stem.
Photosynthesis helps a plant because it is the process of making food for itself
It evaporates through the stomata in their leaves when they absorb carbon dioxide and/or release oxygen. This evaporation actually helps the plant because the negative pressure helps pull more water up through the plant's roots.
stomata are Small pores present on leaves of plants. it helps in photosynthesis by exchanging gases and it also helps in transpiration of plant.
Rhizobium radicicola is a moneran that helps plants use Clusters of red pigments on euglenas that helps the organism find sunlight
Capillary action, transpiration, and root pressure move water up through the plant.
Capillary action, transpiration, and root pressure move water up through the plant.
through pollination butterfly helps to a plants growth.
Because it helps in disintegration of solid masses, as it weakens their individual molecular force of attraction.
The force that holds two ions together in an ionic bond is an electrostatic attraction between oppositely charged ions. In ionic bonding, there is a large electronegativity difference between the metal cation and nonmetal anion bonding.
Chlorophyll helps plants by enabling them to go through photosynthesis, which gives them nutrients by converting sunlight into glucose, a type of sugar .
Mass. There's a gravitational force of mutual attraction between every pair of mass objects. The mutual force of attraction between the sun and every orbiting object in the solar system is what keeps each one in its orbit.
Ionic bonding is the electrostatic force of attraction between postively and negatively charged ions. And not sure about nomenclauture but hope that helps! :)
The effect of the sun to the plants is very good. The sun helps the plants in the process known as photosynthesis. This is a process through which plants manufacture their food.
The resistance force is the log. It trys to stop the wedge of the axe. The effort force of the swinging axe helps it break through the log, breaking through its resistance.
Cohesion force among water molecules and transpiration pull.
Helps to circulate water through xylem(transpiration pull),cools the plant.