Answer:
Explanation:
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It says:
<h3>The process of photosynthesis and cellular respiration are represented in the table below. Different energy transformations take place during these processes.</h3><h3> </h3><h2> Photosynthesis and Cellular Respiration</h2><h3>Process Reactants Products Type of Energy</h3><h3> 1 A B Transformation </h3><h3> 2 B A Energy Transformation 1 Energy Transformation 2</h3><h3 /><h3>Suppose B is carbon dioxide and water. What are Energy Transformations 1 and Energy Transformation 2? Support your answers.</h3>
When water molecules are broken down into hydrogen and oxygen molecules by a chemical reaction called electrolysis. Good Luck!!!
ν=c/λ
c=300.000.000m/s=300.000.000.000.000.000nm/s
λ=532nm
v=300.000.000.000.000.000/532=5.6*10^14Hz(third option)
The proximal tubule fluid is more hyperosmotic than the renal cortex, but this does not influence what is causing the acid-base disruption.
<h3>How does hyperosmotic work?</h3>
In the extracellular space, the first drop in temperature results in the formation of crystals, which creates a hyperosmotic environment that draws water out of the cells and causes them to contract. Organelles & biological membranes are damaged as a result of inner crystal formation as the temperature drops.
<h3>What transpires inside a hyperosmotic environment to a cell?</h3>
A cell submerged in a 10% dextrose hyperosmotic , osmotic pressure solution would initially lose area as water departs and then start gaining proportion as glucose is delivered through into cell as moisture follow by osmosis. This is because water crosses cell surfaces more quickly than solutes do.
To know more about Hyperosmotic visit:
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If there was a sudden drop in temperature after the evolution of the
first living cells, the rate of fermentation would drop due to the
temperature. My prediction would have to include the data, which is on
the graph. The question does not include a temperature to base my
hypothesis on so I would have to conclude that if the temperature
suddenly dropped to 35ºC to -20ºC, that the initial cells would die, and
that the atmosphere and the evolution of cyanobacteria would change
drastically.
