Light-dependent reactants are the molecules involved in the light-dependent reactions of photosynthesis. They include water, which is split by light energy to release oxygen and electrons, as well as other molecules like adenosine triphosphate (ATP) and nicotinamide adenine dinucleotide phosphate (NADP+), which are important for carrying energy and electrons to drive the synthesis of carbohydrates.
The reversible reactions are more dependent.
In the light-dependent cycle of photosynthesis, reactants such as water and light energy are converted into products such as oxygen, ATP, and NADPH through a series of complex reactions involving photosystems I and II, electron transport chains, and ATP synthase. These chemical transformations are essential for capturing and converting light energy into chemical energy that can be used in the Calvin cycle to produce glucose.
The two reactions of photosynthesis are connected by two substances: ATP and NADPH. These are produced by the light dependent reaction and are used by the light independent reaction. ATP is produced from ADP and Pi (phosphate): ADP + Pi ---> ATP This reaction requires energy to make it work, and this energy comes from light absorbed in the light dependent reaction. NADPH is produced from NADP+ and H: NADP+ + H ---> NADPH This reaction also requires energy, which is obtained from light in the light dependent reaction. The ATP and the NADPH are used in the light dependent reaction to provide energy and a source of H to convert CO2 to CH2O (carbohydrate). The products of the reactions (ADP, Pi, NADP+) are recycled in the light dependent reaction to produce more ATP and NADPH. For a summary diagram see: http://www.griffined.com/imagesphotosynthesis-overview.gif
You might mean the reactants, the reactants for photosynthesis are 6CO2 + 6H2O+ light energy. The products from these reactants are Oxygen, Glucose. Photosynthesis: 6CO2+6H2O+light energy--->6O2+C6H12O6.
The reactants for the light-independent reaction, also known as the Calvin cycle, primarily come from the products of the light-dependent reactions. These reactants include ATP (adenosine triphosphate) and NADPH (nicotinamide adenine dinucleotide phosphate), both of which are produced during photosynthesis in the thylakoid membrane of chloroplasts. Additionally, carbon dioxide from the atmosphere is also used as a reactant in the Calvin cycle to produce glucose.
The reactants of light-dependent reactions in photosynthesis are H20 (water), ADP, and NADP+.The products of light-dependent pathways of photosynthesis are Oxygen, ATP, and NADPH.The reactants of light-independent reactions are ATP, NADPH, and Carbon Dioxide.The main purpose of the light independent reaction is to produce glucose.
The reactants of light-dependent reactions in photosynthesis are H20 (water), ADP, and NADP+.The products of light-dependent pathways of photosynthesis are Oxygen, ATP, and NADPH.The reactants of light-independent reactions are ATP, NADPH, and Carbon Dioxide.The main purpose of the light independent reaction is to produce glucose.
In photosynthesis, the reactants of the light-dependent reaction are water and sunlight, which produce oxygen, NADPH, and ATP. The reactants of the light-independent reaction (Calvin cycle) are carbon dioxide, NADPH, and ATP, which produce glucose.
The reactants in the light independent reactions of photosynthesis are carbon dioxide (CO2) and ATP (adenosine triphosphate) and NADPH produced in the light-dependent reactions. These reactions occur in the stroma of the chloroplast and lead to the formation of glucose through the Calvin cycle.
My friends, the only 2 things you need are light and water. Sorry, though. If you dunk a lit light bulb in water, you will not get a light-dependent reaction. You will get electrocuted.... so don't try this one at home!
The reversible reactions are more dependent.
In the light-dependent cycle of photosynthesis, reactants such as water and light energy are converted into products such as oxygen, ATP, and NADPH through a series of complex reactions involving photosystems I and II, electron transport chains, and ATP synthase. These chemical transformations are essential for capturing and converting light energy into chemical energy that can be used in the Calvin cycle to produce glucose.
The energy is dependent on the reactants.
The equilibrium constant is independent of wavelength because it represents the balance of reactants and products in a chemical reaction, which is determined by the thermodynamics of the reaction and not by the specific wavelength of light that may be used to drive the reaction. The equilibrium constant is dependent on temperature, pressure, and concentrations of reactants and products, but not on the wavelength of light.
Light and Water.
rate of reaction depends on the amount of reactants
Water and sunlight check out this website on photosynthesis http://www.authorstream.com/presentation/Callia-36221-Photosynthesis-Equation-happen-Chloroplasts-Two-Parts-Light-Depende-as-Entertainment-ppt-powerpoint/