Higher light intensities increase the rate of photosynthesis because they provide more energy for the chlorophyll in plants to capture light. This energy is essential for driving the reactions that convert carbon dioxide and water into glucose and oxygen. As light intensity rises, the rate of light-dependent reactions increases, leading to more ATP and NADPH production, which are crucial for the subsequent light-independent reactions. However, this increase continues only up to a certain point, after which other factors may become limiting.
Increase in the core temperature and decrease in the core radius.
Are photosynthesis cause carbon to cycle through the earth.
In hot summers, intense light can lead to high temperatures that may cause stress to plants, resulting in a phenomenon known as photoinhibition. This occurs when excessive light energy overwhelms the photosynthetic machinery, damaging chlorophyll and reducing the efficiency of photosynthesis. Additionally, higher temperatures can increase the rate of transpiration, causing plants to close their stomata to conserve water, which limits carbon dioxide intake and further restricts photosynthesis. Consequently, while light intensity is essential for photosynthesis, extreme conditions can hinder the process.
Adding hot water will cause the greatest increase in water temperature, as it has a higher initial temperature. Adding ice will cause the greatest decrease in water temperature, as it absorbs heat from the water to melt and reach thermal equilibrium.
When electromagnetic radiation is absorbed, several effects can occur: it can increase the energy of the absorbing material, leading to temperature rises (thermal effects); it may cause electrons to be excited to higher energy levels, resulting in fluorescence or phosphorescence; absorption can also lead to chemical reactions, as seen in photosynthesis; finally, it may cause ionization, where atoms are stripped of electrons, potentially leading to damage in biological tissues.
Different intensities.
a higher birthrate then Death Rate.
a higher birthrate then Death Rate.
At first, sunlight causes an increase in photosynthesis. At some point, photosynthesis stops increasing with increasing sunlight. At this point, the chlorophyll molecules are saturated. Further increases in sunlight cause a decrease in photosynthesis as chlorophyll molecules are destroyed.
Temperature being a limiting factor for biochemical reaction also regulate the rate of photosynthesis in plants. Thus lower and higher temperature, beyond the optimum limit, reduce the rate of photosynthesis and hence production of oxygen is also affected.
Increase in the core temperature and decrease in the core radius.
higher amount of solar energy.
Yes, increasing temperature can cause the internal resistance of a battery to increase. This is because higher temperatures can lead to material degradation and changes in chemical reactions within the battery, which can ultimately result in higher internal resistance.
One common cause of an increase in pH is the addition of a base or alkali substance to a solution. This can lead to the release of hydroxide ions, which in turn can raise the pH level of the solution. Other factors, such as bacterial activity or photosynthesis, can also contribute to an increase in pH through the release of basic byproducts.
Are photosynthesis cause carbon to cycle through the earth.
A higher price will cause an increase in supply, assuming that all other factors remain constant. Likewise, a decrease in price will cause a decrease of supply and an increase in demand.
if photosynthesis stops animals will not get food to eat .The amount of oxygen will decrease and amount of carbon dioxide will increase and the ice will melt which can cause floods.