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Gases are exchanged in photosynthesis primarily in the stomata, which are tiny openings on the surface of leaves. Through these stomata, carbon dioxide enters the plant while oxygen, a byproduct of photosynthesis, is released into the atmosphere. This gas exchange is crucial for the process of converting light energy into chemical energy.
Carbon dioxide enters plants through small openings called stomata, which are primarily located on the underside of leaves. These stomata allow for the exchange of gases, enabling the uptake of CO2 for photosynthesis while also facilitating the release of oxygen. The process is crucial for plant growth, as it helps convert carbon dioxide and sunlight into energy.
Carbon dioxide enters the plant primarily through small openings called stomata, which are found on the surfaces of leaves. These stomata allow for the exchange of gases, enabling carbon dioxide to enter for photosynthesis while also facilitating the release of oxygen. The process is regulated by the plant to optimize gas exchange and minimize water loss.
Gases such as carbon dioxide and oxygen pass through the openings of leaves called stomata. Carbon dioxide is taken in for photosynthesis, while oxygen is released as a byproduct. Water vapor is also released through stomata in a process called transpiration.
Plants obtain gases needed for respiration, such as oxygen, through tiny pores called stomata on their leaves. These stomata allow gases to enter and exit the plant. For photosynthesis, plants use carbon dioxide from the air, which enters the leaves through the same stomata and is used along with sunlight and water to produce glucose for energy.
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These "holes" are called the stomata. Carbon dioxide enters through the stomata, and through the process of photosynthesis, this carbon dioxide is changed to oxygen and then released through the stomata
The openings in leaves that allow gases to pass through are called stomata. Stomata help regulate gas exchange by allowing carbon dioxide to enter the leaf for photosynthesis and oxygen to exit, while also enabling water vapor to escape through transpiration.
Gases are exchanged in photosynthesis primarily in the stomata, which are tiny openings on the surface of leaves. Through these stomata, carbon dioxide enters the plant while oxygen, a byproduct of photosynthesis, is released into the atmosphere. This gas exchange is crucial for the process of converting light energy into chemical energy.
Carbon dioxide enters plants through small openings called stomata, which are primarily located on the underside of leaves. These stomata allow for the exchange of gases, enabling the uptake of CO2 for photosynthesis while also facilitating the release of oxygen. The process is crucial for plant growth, as it helps convert carbon dioxide and sunlight into energy.
Carbon dioxide enters the plant primarily through small openings called stomata, which are found on the surfaces of leaves. These stomata allow for the exchange of gases, enabling carbon dioxide to enter for photosynthesis while also facilitating the release of oxygen. The process is regulated by the plant to optimize gas exchange and minimize water loss.
Oxygen and carbon dioxide diffuse in and out of a leaf through small openings called stomata. During photosynthesis, carbon dioxide enters the leaf through the stomata and oxygen exits. In the process of respiration, oxygen enters the leaf and carbon dioxide exits. This exchange of gases occurs through diffusion, where molecules move from areas of high concentration to areas of low concentration.
Gases such as carbon dioxide and oxygen pass through the openings of leaves called stomata. Carbon dioxide is taken in for photosynthesis, while oxygen is released as a byproduct. Water vapor is also released through stomata in a process called transpiration.
Yes, pores are small openings that allow liquids or gases to pass through. They can be found in materials like membranes, filters, and biological tissues, serving as pathways for the movement of substances. Pores help regulate the flow of fluids and gases in various systems.
Plants obtain gases needed for respiration, such as oxygen, through tiny pores called stomata on their leaves. These stomata allow gases to enter and exit the plant. For photosynthesis, plants use carbon dioxide from the air, which enters the leaves through the same stomata and is used along with sunlight and water to produce glucose for energy.
No, dragonflies do not breathe through lungs like mammals do. Instead, they have a system of tubes called tracheae that deliver oxygen directly to their tissues. Air enters their bodies through small openings in their exoskeleton, called spiracles, and is transported through these tubes. This allows them to efficiently exchange gases while remaining lightweight and agile in flight.
Yes, insects have a system of tiny tubes called tracheae that allow them to exchange gases with the environment. Air enters these tubes through openings called spiracles on the insect's body, providing them with oxygen needed for respiration.