Water tension and osmosis.
well at first the roots carry it up to the middle of the plant, then they go into the chloroplast and it stores there/ Osmosis carry water through the plant cells.
I think its because the weight of your clothes weigh you down and you have more water resistance pushing against you. I think...x Because clothes have more gravity in them. They are heavier and they soak up water, though your body dosent soak up water. Therefore that is the reason you go slower in clothes!! lolBYE BYE Lizzie :):) Because clothes have more gravity in them. They are heavier and they soak up water, though your body dosent soak up water. Therefore that is the reason you go slower in clothes!! lol BYE BYE Lizzie :):)
Feeds the plant water from the root up
It is due to gravity. Cut the stems underneath water to lessen this effect. If not done, this will often cause an air bubble to form in the stem, so stopping water continuing up the stem.
The xylem is the part of the plant responsible for transporting water and nutrients from the roots to the leaves. It is a complex tissue that forms a network of vessels for efficient water transport throughout the plant.
An increase in dissolved solids, like salts or minerals, can cause the specific gravity to go up in water. This is because these substances make the water denser, increasing its specific gravity. Additionally, a decrease in temperature can also cause the specific gravity of water to increase, as colder water is denser than warmer water.
Yes it does. Plant seeds distinguish between up and down based on gravity. Thatis how they decide the direction in which to send the first shoot. This needs to go in the "up" direction so that it can then capture sunlight and produce energy for its growth.
when a plant takes up water from the roots the water and nutrients go into the xylem and go up the stem by both adhesion and cohesion to get to the leaves. the leaves of the plant use transpiration to pull the water up by letting out water vapour and gases through the stomata and guard cells.
when a plant takes up water from the roots the water and nutrients go into the xylem and go up the stem by both adhesion and cohesion to get to the leaves. the leaves of the plant use transpiration to pull the water up by letting out water vapour and gases through the stomata and guard cells.
when a plant takes up water from the roots the water and nutrients go into the xylem and go up the stem by both adhesion and cohesion to get to the leaves. the leaves of the plant use transpiration to pull the water up by letting out water vapour and gases through the stomata and guard cells.
Water is transported against gravity in plant tissues through a process called transpiration. This is primarily driven by the cohesion and adhesion properties of water molecules, allowing it to be pulled up through the plant's xylem vessels. Additionally, the process is also facilitated by the transpiration stream, which helps maintain a continuous flow of water from the roots to the leaves.
No, water cannot naturally fall up due to the force of gravity pulling it downward. While there are some devices and experiments that can create the illusion of water traveling upward, it is not possible for water to flow against gravity on its own.
By a process called CAPILLARY REACTION - it's similar to dipping cotton fabric in a bowl of water and watching it creep up the fabric against gravity
Yes well that depends who you look at it. When you water a plant it does not just go into the plant but, the roots do such it up in a mater of time, from there water gets put into plants.
well at first the roots carry it up to the middle of the plant, then they go into the chloroplast and it stores there/ Osmosis carry water through the plant cells.
as we go up gravity decreases
when a plant takes up water from the roots the water and nutrients go into the xylem and go up the stem by both adhesion and cohesion to get to the leaves. the leaves of the plant use transpiration to pull the water up by letting out water vapour and gases through the stomata and guard cells.