Photosynthesis' products are the same as the reactants of cellular respiration. In other words photosynthesis makes what cellular respiration uses.
The two main stages of photosynthesis are related indirectly. The two are known as light reactions which takes place in grana and the dark reaction which occurs in the stroma. Both are necessary for photosynthesis but are not dependent on each other.
In terms of light, the first stage requires light and the second stage of photosynthesis does not require light.
The light dependent stage of photosynthesis takes lights energy and puts it into NADPH and ATP. The light independent stage uses this energy to make glucose and use CO2 from the atmosphere.
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The first stage requires the direct energy that the second stage makes into energy carrier molecules.
The two stages are the Calvin cycle and the light reactions.
assimilatory powers(NADH2+ATP) produced in light reaction are used in calvin cycle.
Photosynthesis is the biological process of generating energy in plant systems through the use of chloroplasts and light from the sun.
the two stages are the light dependent variable reactions and the light dependent reactions or calvin cycle
The two stages of photosynthesis are the light dependent and the light independent. During the light reactions, light is converted into energy by a process of transferring electrons to and from a special chemical called NADP. In the light independent stage, called the Calvin Cycle, which uses that energy to change carbon dioxide into sugars for the cell's use.
light reactions
Photosynthesis happens in two stages, also called reactions. The first stage is the light-dependent stage. In this stage light energy is absorbed by chlorophyll and converted into chemical energy, and water is split to produce hydrogen. The unwanted oxygen from the water is released. The second stage is the light-independent stage. In this stage the chemical energy and the hydrogen from the first stage are used to convert carbon dioxide into carbohydrates, such as glucose. More details can be found on this site by searching for photosynthesis.
Photosynthesis occurs in two stages in a cell. In the first stage, light-dependent reactions capture the energy of light and use it to make the energy-storage and transport molecules ATP and NADPH. The light-independent Calvin cycle uses the energy from short-lived electronically excited carriers to convert carbon dioxide and water into organic compounds that can be used by the organism. (Wikipedia)
The light dependent stage and the light independent stage.
1st=light dependent reactions 2nd= calvin cycle
Photosynthesis is performed in two stages:Light reactions (or light-dependent reactions): Energy from sunlight is required.Dark reactions (or light-independent reactions): No sunlight is required. However, energy formed by the light-dependent reactions is needed.
Photosynthesis is performed in two stages:Light reactions (or light-dependent reactions): Energy from sunlight is required.Dark reactions (or light-independent reactions): No sunlight is required. However, energy formed by the light-dependent reactions is needed.
the two stages are the light dependent variable reactions and the light dependent reactions or calvin cycle
The two stages of photosynthesis are the light dependent and the light independent. During the light reactions, light is converted into energy by a process of transferring electrons to and from a special chemical called NADP. In the light independent stage, called the Calvin Cycle, which uses that energy to change carbon dioxide into sugars for the cell's use.
Light dependent reactions produce ATP and NADPH from energy captured from light. Therefore without light it cannot proceed. Light independent reactions fix carbon dioxide into glucose using the ATP and NADPH produced in the light dependent reactions. So light independent reactions can occur without light as long as CO2, ATP and NADPH is present.
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
light reactions
Photosynthesis consists of two stages: a series of light-dependent reactions that are temperature independent and a series of temperature-dependent reactions that are light independent. The rate of the first series, called the light reaction, can be increased by increasing light intensity (within certain limits) but not by increasing temperature. In the second series, called the dark reaction, the rate can be increased by increasing temperature (within certain limits) but not by increasing light intensity.
Photosynthesis happens in two stages, also called reactions. The first stage is the light-dependent stage. In this stage light energy is absorbed by chlorophyll and converted into chemical energy, and water is split to produce hydrogen. The unwanted oxygen from the water is released. The second stage is the light-independent stage. In this stage the chemical energy and the hydrogen from the first stage are used to convert carbon dioxide into carbohydrates, such as glucose. More details can be found on this site by searching for photosynthesis.
Photosynthesis occurs in two stages in a cell. In the first stage, light-dependent reactions capture the energy of light and use it to make the energy-storage and transport molecules ATP and NADPH. The light-independent Calvin cycle uses the energy from short-lived electronically excited carriers to convert carbon dioxide and water into organic compounds that can be used by the organism. (Wikipedia)