- Wed Nov 06, 2024 9:23 pm
#110466
Hi Dancingbambarina,
I'm not sure that I entirely follow your question.
As far as I can tell, the word "normal" is being used to describe "standard or typical" molecular motion. "Normal" is not referring to the normal amount of molecular motion or to the variability, it is simply referring to the typical molecular motion that happens in the retina.
In the context of the sentence in which it appears, the key distinction is that the change in molecular shape from this normal molecular motion is different from the change in molecular shape that happens when photons hit the rhodopsin molecules and that this change from the normal molecular motion creates visual errors.
The final sentence of the stimulus states that the amount of this normal molecular motion is directly proportional to the temperature of the retina, meaning that as the temperature increases, so does the amount of normal molecular motion.
To solve the question, you simply need to link the temperature to the normal molecular motion and then the motion to the visual errors and find an answer that links these.
I'm not sure that I entirely follow your question.
As far as I can tell, the word "normal" is being used to describe "standard or typical" molecular motion. "Normal" is not referring to the normal amount of molecular motion or to the variability, it is simply referring to the typical molecular motion that happens in the retina.
In the context of the sentence in which it appears, the key distinction is that the change in molecular shape from this normal molecular motion is different from the change in molecular shape that happens when photons hit the rhodopsin molecules and that this change from the normal molecular motion creates visual errors.
The final sentence of the stimulus states that the amount of this normal molecular motion is directly proportional to the temperature of the retina, meaning that as the temperature increases, so does the amount of normal molecular motion.
To solve the question, you simply need to link the temperature to the normal molecular motion and then the motion to the visual errors and find an answer that links these.