Photosynthesis happens rapidly when there is sunlight. Sunlight is a main factor necessary for Photosynthesis. So if the temperature is not hot enough, photosynthesis might not happen as rapidly as it happens when the sunlight is directly there.
Temperature affects the rate. Because of it is using enzymes.
Light intensity directly affects the rate of photosynthesis. As light intensity increases, so does the rate of photosynthesis, up to a certain point where the rate levels off or decreases. Plants require a certain amount of light to carry out photosynthesis efficiently.
Generally, it comes down to the basic laws of chemistry. As the temperature increases, particles become more 'excited' and move quicker, therefore increasing the rate of photosynthesis. The opposite happens when temperature decreased, the particles move slower and therefore decreasing the rate of photosynthesis.
The temperature of the system
by the bubbles that are produces the closer the faster the bubles move
Temperature affects living things mainly by affecting the rate of chemical reactions. These are catalysed by enzymes, which are speeded up by increasing the temperature. The Calvin cycle is a series of chemical reactions, so increasing the temperature increases the rate of reactions in the Calvin cycle and so increases the rate of photosynthesis.
Yes it affects the process of photosynthesis. As solar eclipse block out some sunlight, the rate of photosynthesis will be slower.
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.
Temperature affects the rate. Because of it is using enzymes.
Energy is needed to reproduce. Photosynthesis is how plants make "food". That "food" is turned into energy by cellular respiration. So, the more cycles of photosynthesis are done, the faster a plant grows.
Light and temperature are both limiting factors for photosynthesis because both are required for the process to take place. Photosynthesis will only occur between certain temperature ranges. If the temperature becomes too high or too low photosynthesis will slow down and eventually stop. Light is similar in the sense that too little light will stop the process and too much light will no longer increase the rate of photosynthesis for the plant.
Photosynthesis occurs within an ideal band of temperature. As the temperature changes in either direction from the center of the band, the photosynthesis rate decreases.
The rate of photosynthesis in relation to temperature forms a bell curve. At low temperatures the enzymes responsibility for photosynthesis have very little energy so the rate of photosynthesis is very slow. If it is cold enough for water to freeze it can be very harmful to a plant. As the temperature increases, the enzymes get more energy so the rate of photosynthesis increases. If it gets too hot the enzymes begin to lose their shape (denature). This means they are unable to function properly and the rate of photosynthesis decreases again. Also, at higher temperatures the stomata close to prevent water loss. This also stops gas exchange which slows photosynthesis even further. If it is hot enough for water to boil this can be very harmful.
Yes it does, The rate of photosynthesis in relation to temperature forms a bell curve. At low temperatures the enzymes responsible for photosynthesis have very little energy so the rate of photosynthesis is very slow. if it is cold enough for water to freeze it can be very harmful to a plant. as the temperature increases, the enzymes get more energy so the rate of photosynthesis increases. If it gets too hot the enzymes begin to lose their shape (denature). this means they are unable to function properly and the rate of photosynthesis decreases again. also at higher temperatures the stomata close to prevent water loss. this also stops gas exchange which slows photosynthesis even further. if it is hot enough for water to boil this can be very harmful.
Light intensity directly affects the rate of photosynthesis. As light intensity increases, so does the rate of photosynthesis, up to a certain point where the rate levels off or decreases. Plants require a certain amount of light to carry out photosynthesis efficiently.
Generally, it comes down to the basic laws of chemistry. As the temperature increases, particles become more 'excited' and move quicker, therefore increasing the rate of photosynthesis. The opposite happens when temperature decreased, the particles move slower and therefore decreasing the rate of photosynthesis.
Four factors that affect the rate of photosynthesis are light intensity, carbon dioxide concentration, temperature, and water availability. Photosynthesis requires light energy, carbon dioxide, and water to produce glucose, so changes in any of these factors can impact the rate of photosynthesis. Temperature also plays a role in enzyme activity, which can influence the overall rate of photosynthesis.