Light intensity and photosynthetic rate

AI Thread Summary
The discussion focuses on the relationship between light intensity and photosynthetic rate, emphasizing that as light intensity decreases, oxygen production also declines. It clarifies that light rays do not lose energy with distance; instead, their intensity appears to decrease because they spread over a larger area. The conclusion drawn is that light rays are more concentrated when closer to the plant. Participants inquire about the specifics of the experiment, such as the type of light source and whether the power or location of the light source was altered. Overall, the conversation highlights the importance of understanding how light distribution affects photosynthesis.
Propagandhi
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I'm doing a report for biology about the relation betweem light intensity and photosynthetic rate. My results showed that as light intensity decreases, so does oxygen production.

I said in my discussion that light rays that must travel longer distances will lose energy and appear dimmer than rays that travel shorter distances.

Is this correct?
 
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I'm afraid not.

Light rays don't lose energy with distance. The apparent intensity of a light source does decrease with distance, but that's because the light is spreading out to cover a larger area.
 
So a more appropriate conclusion would be that the rays are more concentrated when they are closer to the plant?
 
Can you describe the experiment a little more. What type of light source did you use? What did you actually change ... the power of the light source, or the location of the light source?

Propagandhi said:
So a more appropriate conclusion would be that the rays are more concentrated when they are closer to the plant?

Typically, light rays are more concentrated closer to the source of the light. Move the plant away from the source, and the light becomes less concentrated (i.e. dimmer) at the plant.

This assumes you're not using lenses to focus the light, or a laser where the light intensity is fairly constant over a large distance.
 
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