Photosynthesis
Water and Oxidation
water is oxidized when hydrogen is pulled from oxygen and the result is water.
Potential (stored) Chemical Energy and Chemical Bond
Chemical bonds are broken Potential Chemical energy is released.
Chlorophyll and Light Reactions
Chlorophyll absorbs light energy and stores it in ATP and NADH+ during the calvin cycle.
Chlorophyll and Light Reactions
Chlorophyll absorbs the light from the sun which is the first step of photosynthesis.
Chlorophyll and Pigment
Chlorophyll is a pigment used in light reactions.
Potential (stored) Chemical Energy and ATP
In the light reactions, ATP is created and stored as potential chemical energy.
Carbon dioxide and photosynthesis
during photosynthesis c02 and water are turned into glucose and oxygen.
Water and photosynthesis
during photosynthesis c02 and water are turned into glucose and oxygen.
Producer and Sugar
Producers, through the process photosynthesis, turn sunlight into chemical energy in the form of simple sugars.
ATP and Calvin Cycle
ATP provides the energy necessary to run the Calvin Cycle.
Autotroph and Producer
Autotrophs are organisms which are the producers of food for all other organisms, either directly or indirectly.
Carbon dioxide and glucose
Carbon dioxide, with the help of water, turn into sugars during the calvin cycle.
Water and glucose
In the calvin cycle, Water and carbon dioxide convert into sugar.
Solar Energy and Glucose
During photosynthesis, solar energy is turned into chemical energy in the form of glucose, a simple sugar.
Glucose and Potential (stored) Chemical Energy:
During the Calvin Cycle, potential stored energy, in the form of ATP, provides the energy necessary to turn water and CO2 into Glucose.
Grana and Chloroplasts
Grana is stacks of thylakoids inside of a chloroplasts.
ATP and Solar Energy
In light reactions, solar energy is converted into chemical potential energy, which is stored in ATP.
Solar Energy and Potential (Stored) Chemical Energy
In light reactions, solar energy is converted into potential chemical energy.
Grana and Light reactions
Light Reactions take place in grana which are stacks of thylakoids.
Photosynthesis and Light Reactions
Light reaction is the first step of a two-step process in photosynthesis.
Water and Oxygen
Light splits water into oxygen and hydrogen.
NAD+ and electron
NAD+ requires an electron to become stable.
NADP+ and Coenzyme
NADP+ is a co-enzyme used or produced in the calvin cycle.
Hydrogen and NADP+
NADP+, when combined with with hydrogen turns into NADPH.
Oxidation and Electron
Oxidation is the loss of electrons in a molecule.
Photosynthesis and Oxygen
Oxygen is a product photosynthesis.
Photosynthesis and Producer
Photosynthesis is a process through which producers turn sunlight into chemical energy in the form of simple sugars (glucose).
Photosynthesis and Chloroplasts
Photosynthesis occurs within the chloroplasts.
Sugar and Potential (Stored) Chemical Energy
Potential chemical energy is stored in sugar and used in the plant for different processes.
Carbon Dioxide and Reduction
Reduction occurs in the calvin cycle when carbon dioxide is converted into sugar.
Solar Energy and Pigment
Solar energy excites electrons in the pigment which is chlorophyll A.
Photosynthesis and Solar Energy
Solar energy powers light reactions which is the first step of photosynthesis.
Solar Energy and Light Reactions
Solar energy powers light reactions which is the first step to photosynthesis.
Stroma and Chloroplasts
Stroma is the fluid inside of a chloroplast.
Carbon Dioxide and Calvin Cycle
The Calvin Cycle uses Carbon Dioxide to produce Glucose, NADP, and ADP+P.
Photosynthesis and Calvin Cycle
The Calvin cycle is the 2nd part of photosynthesis.
Stroma and Calvin Cycle
The calvin cycle is a process that occurs within the stroma of a chloroplast.
Hydrogen and NADPH
When Hydrogen is removed, NADPH turns into NADP+.
Photosynthesis and glucose
glucose, a simple sugar, is a product of photosynthesis.
