The main processes in the in dependant reactions are collectively called the Calvin Cycle.
Because almost no heat is produced during this reaction. That is why it is often called "cold light".
If there is any type of energy given offduring a chemical reaction, it is most likely to be heat or light. However, heat and light often come together, and there are more reactions known to give heat without light than the other way around. Thus, I would go for heat then. (simply put)
Adrenosinetriphosphate
Things that give out light are called luminous objects. These objects emit their own light through a process called luminescence, which can be either incandescence (like a light bulb) or luminescence (like a glow stick). Non-luminous objects, on the other hand, reflect light from other sources without emitting their own light.
Fiber optic cables are flexible because they are made out of plastic that refracts light and keeps it inside the cable. The light pretty much bounces its way down the inside of the cable by passing through different layers of plastic that bend the light and keeps it moving towards one direction.
exothermic
Exothermic reactions often produce energy in the form of heat, light or electricity. These reactions release energy as they proceed, leading to a rise in temperature or the production of light.
Photosynthetic cells have special structures called chloroplasts that contain chlorophyll, which is responsible for capturing light energy. Nonphotosynthetic cells lack chloroplasts and do not have the ability to carry out photosynthesis. Additionally, photosynthetic cells often have specialized proteins and enzymes involved in the light-dependent and light-independent reactions of photosynthesis.
Yes, chemical reactions that occur in cells are often referred to as biochemical reactions. These reactions are essential for various cellular processes such as metabolism, energy production, and the synthesis of biomolecules.
The storage granule are membrane bounded vesicles containing condensed secretory materials (often in an inactive, zymogene, form). Otherwise known as zymogene granules or vacuoles. Granules found in plastids or in cytoplasm, assumed to be food reserves, often of glycogen or other carbohydrate polymer.
Because almost no heat is produced during this reaction. That is why it is often called "cold light".
The splitting of water into H+ and OH- is called hydrolysis and occurs in a huge array of biochemical reactions. Water is broken down just about as often as it is resembled, call these processes a 'lubricant for chemical reactions'.
Energy is required to break bonds between atoms in reactant molecules, allowing them to rearrange into new products. This energy is called activation energy. Some reactions release energy, called exothermic reactions, while others absorb energy, called endothermic reactions. Overall, energy is essential for driving chemical reactions and determining whether they proceed or not.
Enzymes. They are biological molecules that facilitate chemical reactions by lowering the activation energy required to convert substrates into products. Enzymes are highly specific, often catalyzing only one type of reaction.
Time is often an independent variable.
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.
The structure you're describing is called a thylakoid. Thylakoids are membrane-bound compartments within chloroplasts and cyanobacteria that contain chlorophyll and other pigments essential for capturing light energy. During the light-dependent reactions of photosynthesis, these structures convert light energy into chemical energy in the form of ATP and NADPH. Thylakoids are often stacked in structures known as grana, enhancing their efficiency in energy capture.