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Plants take in carbon dioxide from the atmosphere to begin the Calvin cycle. They also use ATP (adenosine triphosphate) and NADPH (nicotinamide adenine dinucleotide phosphate) molecules, which are generated during the light-dependent reactions of photosynthesis, to power the Calvin cycle.
Photons of light strike chlorophyll molecules and excite electrons.
True
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AnswerLight Reaction in photosynthesis occurs in the thylakoids found in chloroplasts. here are summarized process:1. light energy strikes chlorophyll bodies and electrons get excited.2. electrons NADP+ and H+ join together to form NADPH in the elctron transport chain.3. light hits a second chlorophyll molecule and splits the water molecule into hydrogen and oxygen. OXygen is released into the atmosphere and hydrogen ions are added.4. more H+ is carried by the electron transport chain.5. Energy is generated for the formation of ATP. to summarize, the light reaction results in the A. production of ATP, a high energy molecule, and NADPH for use in the dark reaction phase; and B. production of oxygen which is released into the atmosphere.
one particle has to travel rely fast
Plants take in carbon dioxide from the atmosphere to begin the Calvin cycle. They also use ATP (adenosine triphosphate) and NADPH (nicotinamide adenine dinucleotide phosphate) molecules, which are generated during the light-dependent reactions of photosynthesis, to power the Calvin cycle.
Glucose production occurs in the 2nd stage of photosynthesis, the Calvin-Benson cycle. The first stage of photosynthesis captures much of the energy from light in order to store that energy in the glucose.
receptive - absorbs new information
one particle has to travel rely fast
This is true. Energy is required to begin all reactions.
Photons of light strike chlorophyll molecules and excite electrons.
The light-dependent portion of photosynthesis is carried out by two consecutive photosystems (photosystem I and photosystem II) in the thylakoid membrane of the chloroplasts. The photosystems are driven by the excited chlorophyll molecules.To begin photosynthesis, the chlorophyll molecule in photosystem II is excited by sunlight and the energy produced helps to break down a water molecule (H2O) into ½O2 (with electrons removed) and 2H+. The removed electrons are excited by the light energy. When the electrons prepare to come to their rest state, they go through an oxidative phosphorylation process and produces an ATP molecule.As the electrons are coming to a resting state, they are excited again in photosystem I and raised to a even higher energy state. The excited electrons are then used to produce NADP+ + H+. The highly energetic NADPH molecule is then fed into the Calvin Cycle to conduct carbon fixation.
depends what you are trying to do and loads of stuff dose a chemical reaction.
A chemical reaction begin only if the activation energy has a specific value.
True
Usually around age 12 but it is dependent on how physically active the person it.