The carbon dioxide goes into the stoma which is located at the bottom of the leaf and water comes from the soil which is captured by the root hair cells, travels up the xylem and into the palisade layer where itmeets the carbon dioxide and then photosynthesis takes place.
You can't see chloroplasts in an onion skin cell since the onion was underground. When the onion is underground, the sun can't reach the onion so the onion skin cells can't make glucose. The onion does have chloroplasts in its cells at the top of the onion. That's where he sunlight can reach the onion.
In the roots, and on the underside of the leaf. This is simply because there is no point, as no sun is going to reach those areas.
Root hair cells do not need chloroplasts as they are under the ground. They can not reach sunlight for photosynthesis. So there is no point of them having chloroplastsgougugugiugyyreslololololololmfao
the reason you wouldn't see chloroplasts is because the onion root tip is underground where light can not reach and why would it need chloroplasts if it didn't need to produce energy form light?
Phytoplankton have chloroplasts that contain chlorophyll, which allows them to absorb sunlight for photosynthesis. They are able to perform photosynthesis underwater because light can penetrate the water to reach them, providing the energy needed to convert carbon dioxide and water into sugars. This process helps phytoplankton produce energy and release oxygen into the water.
You can't see chloroplasts in an onion skin cell since the onion was underground. When the onion is underground, the sun can't reach the onion so the onion skin cells can't make glucose. The onion does have chloroplasts in its cells at the top of the onion. That's where he sunlight can reach the onion.
In the roots, and on the underside of the leaf. This is simply because there is no point, as no sun is going to reach those areas.
Root hair cells do not need chloroplasts as they are under the ground. They can not reach sunlight for photosynthesis. So there is no point of them having chloroplastsgougugugiugyyreslololololololmfao
Because more light energy will be able to reach the chloroplasts and chlorophyll can then trap the light energy. hence, more chloroplasts appear on the top half of the leaf to absorb more light, mainly for the use of photosynthesis.
The upper surface of a leaf is transparent because it lacks chloroplasts which carry out photosynthesis. This allows light to pass through the upper surface and reach the chloroplast-rich cells in the lower side of the leaf where photosynthesis occurs.
the reason you wouldn't see chloroplasts is because the onion root tip is underground where light can not reach and why would it need chloroplasts if it didn't need to produce energy form light?
Phytoplankton have chloroplasts that contain chlorophyll, which allows them to absorb sunlight for photosynthesis. They are able to perform photosynthesis underwater because light can penetrate the water to reach them, providing the energy needed to convert carbon dioxide and water into sugars. This process helps phytoplankton produce energy and release oxygen into the water.
by photosynthesis
The correct way to write a chemical equation is: Reactants -> Products. This means that the reactants on the left side of the arrow are converted into products on the right side. The double arrow symbol <=> can be used to indicate that the reaction can proceed in both directions to reach an equilibrium.
By increasing the thickness of a leaf the process of photosynthesis will become longer. This is because the sun has to penetrate through the leaf to the chloroplasts so that the chloroplasts can converge the sunlight into energy. If the thickness of the leaf is increased then the sunlight will take more time to penetrate through the leaf to reach the chloroplasts.
The products and reactants reach a final unchanging level. (apex) :)
The reaction quotient is the ratio of products to reactants not at equilibrium. If the system is at equilibrium then Q becomes Keq the equilibrium constant. Q = products/reactants If Q < Keq then there are more reactants then products so the system must shift toward the products to achieve equilibrium. If Q > Keq then there are more products than reactants and the system must shift toward the reactants to reach equilibrium.