Carbohydrate Synthesizing Reactions Of Photosynthesis Directly Require
Does the reaction of carbohydrate synthesis require direct photosynthesis? ۔
From the synthesis of carbohydrates to photosynthesis, a direct reaction is required.
Light
B) The effect of the reaction of light
C) Darkness
d) O2 and H20.
e.) Chlorophyll and Co2.
Please explain to us and thank you for your help!
Light
Ptosynthesis uses light energy to produce carbohydrates. Lubricants such as chlorophyll and carotenoids absorb light. This is the spread of the reaction of light.
Where does this energy go in the absorbed light?
The pigment transfers this energy from molecule to molecule until it reaches a pigment called chlorophyll A. From there, the electrons are excited and leave the Ptosystem.
Now I'm going to explain the whole reaction of light, but that's not the point.
Pelly explained I asked because the answer is one.) Easy.
Let me explain why at least some of them can be removed.
C) can be excluded because darkness is not necessary. Light is needed for the reaction of light. The second stage of photosynthesis is the Calvin cycle. Anyway, no light needed. This is sometimes called a dark reaction, but that does not mean that the Calvin cycle only occurs in the dark.
d.) can be removed because ptosynthesis does not require molecular oxygen, it is just a by-product.
e.) can be omitted because if everything about you is carbon dioxide then you are probably right. Carbon dioxide is only needed in the calorie cycle. Chlorophyll is only needed for mild reactions. On the one hand (sorry I can't explain much) these are contradictory answers and can't be the right answers.
b.) can be omitted because it is not directly required. A mild reaction is required after the experiment. And unfortunately I can't even describe it well.
Effects of light reaction (ATP, pH, O2)
There is a general equation for photosynthesis.
6H2O + 6CO2 + light (686kcal)> C6H12O6 + 6O2
The light reaction absorbs H2O and reduces it to O2. You also get good amounts of ATP and pH.
CO2 is used in the calorie cycle or carbon fixation (with the reaction of light with ATP and pH) to produce the final glucose (C6H12O6), which is a carbohydrate.
Ptosynthesis requires direct light for protein synthesis. For a start, just a favorite word to synthesize or create. The carbohydrate produced by photosynthesis is called glucose and its chemical formula is C6 H12 06. . It is also the food of all the ants that feed the plants. Light is needed to produce glucose because plants absorb solar energy from the sun and convert it into chemical energy in the form of glucose through the process of photosynthesis.
O2 and h2o convert it into ic molecules so that it can be used as energy. You need ic molecules.
B) The effects of light reaction are ATP and PH. You also need CO2.
6CO2 + 6H20 + sunlight = C6H1206 + 602 is the equivalent of ptosynthesis, water is removed from the holes of plant stomata, there is also CO2. Sunlight primarily excites electrons, causing chemosis, which pumps molecules and releases protons without ATP. That's what makes the Calvin cycle possible ... as long as it's on the wiki. We apologize. It would be nice to have some information!
So what is the real answer? Please reply
Carbohydrate Synthesizing Reactions Of Photosynthesis Directly Require
Carbohydrate Synthesizing Reactions Of Photosynthesis Directly Require
Does the reaction of carbohydrate synthesis require direct photosynthesis? 3
Reactions from carbohydrate synthesis to photosynthesis require a direct reaction.
Light
B) The effect of the reaction of light
c) Darkness
d.) O2 and H20
e.) Chlorophyll and Co2
Please explain and thanks for the help!
Light
Ptosynthesis uses light energy to produce carbohydrates. Lubricants such as chlorophyll and carotenoids absorb light. This is the spread of the reaction of light.
Where does this energy go in the absorbed light?
The pigment transfers this energy from molecule to molecule until the energy reaches a pigment called chlorophyll A. From there, the electrons get excited and leave the Ptosystem.
Now I'm going to explain the whole process of light reaction, but that's not the point.
Yellow explanation I asked because the answer is a.) Easy.
Let me know why at least some of them can be removed.
c.) can be omitted because darkness is not required. Light is needed for the reaction of light. The second stage of photosynthesis is the Calvin cycle. Anyway, no light needed. This is sometimes called a dark reaction, but that doesn't mean that the Calvin cycle only happens in the dark.
d.) can be removed because ptosynthesis does not require molecular oxygen, it is just a by-product.
e.) can be omitted because if you only think about carbon dioxide, you are probably right. Carbon dioxide is needed only in the calorie cycle. Chlorophyll is only necessary for the reaction of light. In some ways (sorry I can't explain much) this is a contradictory answer and may not be the correct answer.
b) can be omitted because it is not directly required. A moderate response is needed after the experiment. And unfortunately I can't explain it well.
B. Effects of light reaction (ATP, PH, O2)
There is a general equation for photosynthesis.
6H2O + 6CO2 + light (686kcal)> C6H12O6 + 6O2
The light reaction absorbs H2O and reduces it to O2. You also get good amounts of ATP and pH.
CO2 is used in the calorie cycle or in carbon fixation (with ATP and PH from the reaction of light) to produce the final glucose (C6H12O6), which is a carbohydrate.
Ptosynthesis requires direct light to synthesize proteins. For starters, synthesizing is just a fancy word. The carbohydrate produced by photosynthesis is called glucose and has the chemical formula C6 H12 06. Glucose, in a way, is food for plants or is used to perform important functions such as their movement, growth and repair. . It is also the food of all the ants that eat plants. Light is needed to make glucose because plants absorb solar energy from the sun and convert it into chemical energy in the form of glucose through the process of photosynthesis.
b. The effects of the light reaction are ATP and PH. You also need CO2.
6C02 + 6H20 + sunlight = C6H1206 + 602 is the equation for ptosynthesis, water is removed from the holes of plant stomata, here also CO2. Sunlight primarily stimulates electrons and causes chemosis, in which molecules can be pumped and their protons tuned without ATP. That's what makes the Calvin cycle possible ... as long as it's on the wiki. We apologize. That would be nice for some info!
