mS.D rules
it goes in the toilet.
Transpiration occurs fastest under conditions of high temperature, low humidity, and increased air movement. High temperatures increase the rate of evaporation of water from the plant surfaces, while low humidity creates a greater gradient for moisture loss. Additionally, wind or air movement enhances the removal of water vapor surrounding the leaves, further accelerating the transpiration process.
Transpiration in redwoods primarily occurs during the daytime when sunlight is available for photosynthesis. This process takes place mainly through the stomata, tiny openings on the leaves, allowing water vapor to escape into the atmosphere. Redwoods, with their tall stature and extensive canopy, can transpire large amounts of water, which helps regulate internal temperatures and contributes to local humidity levels. Additionally, transpiration can occur year-round, but rates may be higher during warm and dry conditions.
Transpiration primarily occurs in the leaves of a plant, specifically through small openings called stomata. These stomata allow water vapor to escape from the leaf surface into the atmosphere. While transpiration can also occur in stems and other parts, the majority of water loss takes place in the leaves due to their large surface area and exposure to sunlight.
Miracle-Gro is a fertilizer that can help plants grow healthier and faster once they have germinated but it will not make bean seeds germinate quicker. Bean seeds require the right conditions of moisture, warmth, and oxygen for germination to occur at their natural pace.
it goes in the toilet.
Transpiration occurs fastest under conditions of high temperature, low humidity, and increased air movement. High temperatures increase the rate of evaporation of water from the plant surfaces, while low humidity creates a greater gradient for moisture loss. Additionally, wind or air movement enhances the removal of water vapor surrounding the leaves, further accelerating the transpiration process.
This process of molecular exchange is called transpiration.
Transpiration in redwoods primarily occurs during the daytime when sunlight is available for photosynthesis. This process takes place mainly through the stomata, tiny openings on the leaves, allowing water vapor to escape into the atmosphere. Redwoods, with their tall stature and extensive canopy, can transpire large amounts of water, which helps regulate internal temperatures and contributes to local humidity levels. Additionally, transpiration can occur year-round, but rates may be higher during warm and dry conditions.
I've reciently been learning about this in an AP class for my degree. I don't believe it has any other name, just Human Transpiration
Diffusion is quicker at high temperatures and pressures.
Transpiration mainly occurs so that the water is evaporated into the atmosphere from the leaves of the plants. It also helps in the movement of water from the roots to other parts of a plant.
They are separate processes. So it can be occured
they both occur in the biosphere.
Transpiration primarily occurs in the leaves of a plant, specifically through small openings called stomata. These stomata allow water vapor to escape from the leaf surface into the atmosphere. While transpiration can also occur in stems and other parts, the majority of water loss takes place in the leaves due to their large surface area and exposure to sunlight.
Miracle-Gro is a fertilizer that can help plants grow healthier and faster once they have germinated but it will not make bean seeds germinate quicker. Bean seeds require the right conditions of moisture, warmth, and oxygen for germination to occur at their natural pace.
opening and closing of stomata occurs due to turgor changes in guard cells ....................due to exchange of gases carbon dioxide accumulate creating acidic nature resulting in favourable conditions for conversion of starch to glucose ...........glucose being soluble in water increases solute content resulting in endosmosis ..................this results in pulling apart of the opposed inner thicker walls creating an open pore in gaurd cells of stomata