00:02
Okay, you measure the absorbance of a series of solution that contained the root segments.
00:07
The first set of segments have been exposed to a detergent solution for 45 minutes and have a net average absorbance of 0 .476 at 470 nanometers.
00:18
Second set of tubes was exposed to 1 % triton x for 45 minutes, and the net average absorbance is 0 .669, so a higher assortments at 470, which solution did more damage to the cells.
00:34
Okay, so basically we have two tubes with the beet extract, beetroot segments.
00:52
And one we have triton x, and then the other one we have detergent solution.
01:06
So just a detergent solution.
01:09
The one with the triton x has is more turbid, so more light is being absorbed, so as you pass light.
01:30
Okay, you measure the absorbments of a series of solution that contain beet root segments.
01:35
The first set of segments have been exposed to a detergent solution for 45 minutes and have a net average absorbance of 0 .476 at 470 nanometers.
01:47
Second set of tubes was exposed to 1 % triton x for 45 minutes, and the net average absorbance is 0 .669, so a higher absorbance at 470, which solution did more damage to the cells.
02:01
Okay, so basically we have...
02:09
Okay, question.
02:11
You measure the absorbance of a series of solutions that contained beetroot segments.
02:16
The first set of segments had been exposed to detergent solution for 45 minutes and had an average net absorption value of 0 .476 at 470 nanometers.
02:27
The second set of tubes was exposed to 1 % triton x for 45 minutes, and the net average disorbitance is 0 .669 at 470 nanometers.
02:38
What solution did more damage to the cells? explain your answer for full credit.
02:44
Okay, so we have two tubes...