Why The Temperature Stays The Same
During a phase change, the average energy of the particles remains the same, but, the particles are rearranging themselves. Particles become less organized as their energy increases, so the substance changes from a solid to a liquid to a gas. As the energy of the particles becomes less, the particles rearrange themselves more orderly, so a gas changes to a liquid and then to a solid. The total energy of the particles changes - by increasing or decreasing, because the particles are not increasing or decreasing their speed, just their arrangement. The average energy doesn't change. The energy change is hidden from a thermometer and is called 'hidden heat' or 'latent heat'.
Light intensity is a key environmental factor that can affect the rate of photosynthesis. As light intensity increases, so does the rate of photosynthesis, up to a certain point where it plateaus. Other factors such as temperature and carbon dioxide concentration can also influence photosynthesis rate.
Temperature can impact the process of photosynthesis by affecting the enzymes that are involved in the chemical reactions. Higher temperatures can increase the rate of photosynthesis up to a certain point, but too high temperatures can denature the enzymes and slow down or stop the process. Conversely, lower temperatures can slow down the rate of photosynthesis as the enzymes work more slowly.
Factors such as high temperatures, excessive light intensity, and pollution can lead to a rapid decline in photosynthesis rate if they rise above a certain level. These conditions can damage the photosynthetic machinery within plants, disrupting the process of photosynthesis and reducing its efficiency.
YesIt is affected by enzymes.Reaction rate of enzymes affected by temperature. It incrase upto 60C ,then decrease due to denaturization
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.
Light intensity is a key environmental factor that can affect the rate of photosynthesis. As light intensity increases, so does the rate of photosynthesis, up to a certain point where it plateaus. Other factors such as temperature and carbon dioxide concentration can also influence photosynthesis rate.
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.
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.
Temperature can impact the process of photosynthesis by affecting the enzymes that are involved in the chemical reactions. Higher temperatures can increase the rate of photosynthesis up to a certain point, but too high temperatures can denature the enzymes and slow down or stop the process. Conversely, lower temperatures can slow down the rate of photosynthesis as the enzymes work more slowly.
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 higher the temperature, the higher the rate of photosynthesis. Photosynthesis is affected by more than one factor. The other factors are light and carbon dioxide.
Factors such as high temperatures, excessive light intensity, and pollution can lead to a rapid decline in photosynthesis rate if they rise above a certain level. These conditions can damage the photosynthetic machinery within plants, disrupting the process of photosynthesis and reducing its efficiency.
Two other variables that affect photosynthesis are temperature and carbon dioxide levels. Photosynthesis rates increase with higher temperatures up to a certain point, beyond which they decrease. Carbon dioxide levels also influence photosynthesis, as higher concentrations can boost the rate of photosynthesis up to a certain level.
YesIt is affected by enzymes.Reaction rate of enzymes affected by temperature. It incrase upto 60C ,then decrease due to denaturization
yes
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.
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.