Question

Oxygenated hemoglobin absorbs weakly in the red (hence its red color) and strongly in the near infrared, whereas deoxygenated hemoglobin has the opposite absorption. This fact is used in a "pulse oximeter"

asked Jun 21, 2021 144k views

Oxygenated hemoglobin absorbs weakly in the red (hence its red color) and strongly in the near infrared, whereas deoxygenated hemoglobin has the opposite absorption. This fact is used in a "pulse oximeter" to measure oxygen saturation in arterial blood. The device clips onto the end of a person's finger and has two light-emitting diodes—a red (653 nm) and an infrared (935 nm)—and a photocell that detects the amount of light transmitted through the finger at each wavelength.

If 64% of the energy of the red source is absorbed in the blood, by what factor does the amplitude of the electromagnetic wave change?

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Lukevp · Answer 1 · 2021-06-27T09:56:44+0000

Answer:

0.6

Step-by-step explanation:

I_i = Initial intensity

E denotes amplitude

Final intensity is

I_f=(1-0.64)I_i=0.36I_i

We have the relation

$(E_i^2)/(E_f^2)=(I_i)/(I_f)\\\Rightarrow (E_i^2)/(E_f^2)=(I_f)/(0.36I_i)\\\Rightarrow (E_i^2)/(E_f^2)=(1)/(0.36)\\\Rightarrow (E_f^2)/(E_i^2)=0.36\\\Rightarrow E_f^2=0.36E_i^2\\\Rightarrow E_f=0.6E_i$

The amplitude changes by a factor of 0.6

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