Answer: The graph shows that chlorophyll a absorbs light principally around 420-450 nm and 650-680nm wavelengths
Explanation: Chlorophyll a is a pigment found in plants that traps light energy for use in photosynthesis. Chlorophyll a absorbs light mostly in the blue and orange-red wavelengths. This is shown in the graph, where the peaks are around the 400nm and 600nm wavelengths, corresponding to blue and red in visible light.
This absorption means the pigment is 'excited' by this light, sending into a higher state if energy which provides energy for the reactions of photosynthesis.
D because the water gets to the plant by traveling in the roots wich are underground ok
;)
In an experimental animal model, total renal plasma flow is 100 ml/min. You would estimate glomerular filtration rate to be 20 ml/min.
<h3>What is renal blood flow?</h3>
Renal blood flow is the amount of blood delivered to the kidneys per unit of time in kidney physiology. In a 70-kg adult male, the kidneys receive 1.2 to 1.3 L/min, or about 25% of the cardiac output in humans. 94% of it makes it to the cortex.
<h3>Renal plasma flow V/S Renal blood flow </h3>
Renal blood flow is the measure of blood passing through the kidneys in a given length of time, whereas renal plasma flow is the quantity of plasma passing through the kidneys in a given amount of time. As a result, this is the primary distinction between renal blood flow and renal plasma flow.
<h3>What is glomerular filtration rate ?</h3>
A test called the glomerular filtration rate (GFR) measures how efficiently the kidneys are functioning. It specifically determines the amount of blood that is pumped through the glomeruli per minute. The kidneys' globuli are microscopic filters that remove waste from the blood.
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