The water is taken in by the roots. The carbon dioxide travels through tiny holes, called stomata (singular stoma) to get into the leaf.
Water and CO2 is entered. Products are glucose and Oxygen.
Gas, nutrients, and water would not be able to enter a leaf if it were coated with wax. The waxy layer would create a barrier that prevents the entry of these substances, which are essential for the leaf's photosynthesis and overall functioning.
photosynthesis
RUBP or PEP will absorb it. CO2 enter the leaf from air.
CO2 enters a leaf primarily through small openings called stomata, which are located on the leaf's surface. These stomata open and close to regulate gas exchange, allowing carbon dioxide to diffuse in while also facilitating the release of oxygen and water vapor. The CO2 then moves into the leaf's mesophyll cells, where it is used in the process of photosynthesis to produce glucose and oxygen. This process is crucial for the plant's energy production and growth.
CO2 enters through stomata. They are tiny pores on leaves.
The leaf first takes in Carbon Dioxide, or CO2, into it's self through the bottom of the leaf. It uses the CO2 and makes sugars out of it, water, and sunlight. This reaction makes a byproduct, Oxygen, that the leaf lets out, which we use to breathe.
Water and CO2 is entered. Products are glucose and Oxygen.
A plants leaves are used to catch photons (sunrays) from the sun, carbon dioxide, and water. Those are the three basic ingredients needed for a plant to complete photosynthesis.
Gas, nutrients, and water would not be able to enter a leaf if it were coated with wax. The waxy layer would create a barrier that prevents the entry of these substances, which are essential for the leaf's photosynthesis and overall functioning.
A leaf of a plant makes food (organic compounds) from CO2 and water through photosynthesis.
photosynthesis
The leaf collects Carbon Dioxcide (CO2) and somehow turns it into Oxygen
RUBP or PEP will absorb it. CO2 enter the leaf from air.
CO2 enters a leaf primarily through small openings called stomata, which are located on the leaf's surface. These stomata open and close to regulate gas exchange, allowing carbon dioxide to diffuse in while also facilitating the release of oxygen and water vapor. The CO2 then moves into the leaf's mesophyll cells, where it is used in the process of photosynthesis to produce glucose and oxygen. This process is crucial for the plant's energy production and growth.
Small openings on the underside of the leaf called stomata allow CO2 to enter and O2 to exit during photosynthesis. Each stoma is surrounded by guard cells that control its opening and closing to regulate gas exchange.
Carbon dioxide (CO2) is the molecule that enters a leaf from the atmosphere during photosynthesis.