Plants absorb mainly red (650 nm) and blue (450 nm) wavelengths while reflecting mostly green. This is how the chlorophyll molecule responds to EM-waves, and the reason why plants appear green most of the time. Shown below are 3 hypothetical energy levels of the chlorophyll molecule. A) What is the difference in energy levels corresponding to red wavelengths? B) What is the difference in energy levels corresponding to blue wavelengths? C) If an electron "jumped" from energy level 3 to energy level 1, what wavelength photon would be emitted, and D) could our eyes detect this wavelength (use the spectrum shown below)? (650 nm = 650 x 10-9 m = 6.5 x 107 m) %3D A) X10-19 J (Round to the hundredths place) B) x10-19 J (Round to the hundredths place) C) nm (Round to the nearest whole number) D) Type Y for Yes (we could detect this wavelength) and N for No.
Plants absorb mainly red (650 nm) and blue (450 nm) wavelengths while reflecting mostly green. This is how the chlorophyll molecule responds to EM-waves, and the reason why plants appear green most of the time. Shown below are 3 hypothetical energy levels of the chlorophyll molecule. A) What is the difference in energy levels corresponding to red wavelengths? B) What is the difference in energy levels corresponding to blue wavelengths? C) If an electron "jumped" from energy level 3 to energy level 1, what wavelength photon would be emitted, and D) could our eyes detect this wavelength (use the spectrum shown below)? (650 nm = 650 x 10-9 m = 6.5 x 107 m) %3D A) X10-19 J (Round to the hundredths place) B) x10-19 J (Round to the hundredths place) C) nm (Round to the nearest whole number) D) Type Y for Yes (we could detect this wavelength) and N for No.
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Transcribed Image Text:Plants absorb mainly red (650 nm) and blue (450 nm) wavelengths while reflecting mostly green.
This is how the chlorophyll molecule responds to EM-waves, and the reason why plants appear
green most of the time. Shown below are 3 hypothetical energy levels of the chlorophyll molecule.
A) What is the difference in energy levels corresponding to red wavelengths? B) What is the
difference in energy levels corresponding to blue wavelengths? C) If an electron "jumped" from
energy level 3 to energy level 1, what wavelength photon would be emitted, and D) could our eyes
detect this wavelength (use the spectrum shown below)? (650 nm =
650 x 10-9 m =
6.5 x 10-7 m)
A)
x10-19 J (Round to the hundredths place)
B)
x10-19 J (Round to the hundredths place)
C)
nm (Round to the nearest whole number)
D)
Type Y for Yes (we could detect this wavelength) and N for No.
(If you don't see the image, click here )
Transcribed Image Text:D)
Type Y for Yes (we could detect this wavelength) and N for No.
(If you don't see the image, click here )
E1
E2
Ез
RED
BLUE
2=650 nm
2=450 nm
Nucleus
2=???
10
nm
10
Ultraviolet Radiation
nm
10
nm +
X-Ray
UV 400 nm -I nm
I nm
Violet
10 nm +
UV
Blue
100 nm
Green
Yellow
Orange
Red
700 nm
10 nm = 1 um
10 um
Visible Light
100 um
Infrared
Radiation
1000 m = I mm
10 mm - I cm
Microwaves
10 cm +
100 cm =
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