paper‚ and red‚ blue‚ and green translucent filters. I. Abstract Photosynthesis is a process in which plants use light‚ water‚ and carbon dioxide to produce sugars‚ water and oxygen. Chlorophyll a and chlorophyll b‚ in the chloroplasts of a leaf‚ are responsible for absorbing wavelengths of light for use in photosynthesis with red and blue wavelengths being optimal. Testing for the most productive wavelength of light was done using four separate geranium leaves that were covered by red
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through an ecosystem? v \ v | | e-Text Main Menu | Textbook Table of Contents Ten C H A P T E R 1 0 ` Photosynthesis Chapter Outline CHAPTER OUTLINE Photosynthetic organisms are autotrophs. What is light? Pigments absorb light‚ which drives photosynthesis. Photosynthesis requires both photochemical and biochemical reactions to produce sugars. Chloroplasts are the site of photosynthesis in plants. The light reactions of photosynthesis produce ATP. The
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Unit Test #2 Review Redox Reactions oxidation: involves loss of electrons‚ often occur with loss of hydrogen‚ occur with gain of oxygen reduction: involves gain of electrons‚ often occur with loss of oxygen‚ occur with gain of hydrogen redox reactions: coupled reactions that play a key role in flow of energy‚ involve gain/loss of electrons Energy Terms anabolic: using energy to build large molecules catabolic: breaking down compounds into smaller molecules to release energy metabolism: all the
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Photosynthesis Lab Data Collection: The absorption of different wavelengths of light by Chlorophyll Wavelength (nm) Absorbance of light by chlorophyll (Arbitrary units) Diluted Calculation New Reading (Arbitrary units) Violet 430 2.35 50% 2.35 x 2 3.20 Blue 470 1.09 - - 1.09 Blue-Green 492 0.38 - - 0.38 Green 520 0.77 - - 0.77 Yellow-Green 550 0.85 - - 0.85 Yellow 580 1.43 - - 1.43 Orange 600 0.65 - - 0.65 Red 700 0.16 - - 0.16 Absorption and reflection of light: Different substances
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The data found in this experiment supported the initial statement in the hypothesis‚ that blue would have the highest rate of photosynthesis (see Figure 7). The second part of the prediction was refuted by the data‚ as green had a higher rate than both yellow and red. This result seems to go against the experiment‚ however the answer is in Figure 5. When adding green food coloring to the solution (see Methods) dilution also took place. When comparing the wavelength of 540 nm (see Tables 1 & 2) with
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amount of oxygen produced in leaf disks. To do this‚ we first vacuum infiltrate the leaf disks to displace oxygen with water‚ this will make the leaf disks sink. Then‚ when we were ready to let photosynthesis begin‚ we exposed the leaf disks to light and they began to float‚ because the production of oxygen displaced the liquid. There is an inverse relationship between the time it takes the disks to float and the rate of photosynthesis; a slow rate of photosynthesis means leaf disks will float less quick
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of chlorophyll a was 1.590 mol/L‚ chlorophyll b was 0.9568 mol/L‚ and this resulted in a total concentration of chlorophyll to be 2.547 mol/L. The concentration of carotenoids was found to be 0.3858 mol/L. When looking at the peaks shown in the absorption spectra it is possible to identify which peak correlates with which compound. Figure 2 contains a peak at around 500 and 700 nm which is a good indicator that that would-be chlorophyll b. This makes sense because this was the bottom band from the
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and Calvin cycle. 4. Explain the correlation between an absorption spectrum and an action spectrum. An absorption spectrum describes the ability of a pigment to absorb each wavelength of light‚ while an action spectrum shows the effectiveness of each wavelength to drive a process. (The two should correlate since the ability to drive a process depends on the absorption of energy.) 5. Describe how Engelmann was able to form an action spectrum long before the invention of a spectrophotometer. Engelmann
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Photochemistry From Wikipedia‚ the free encyclopedia Jump to: navigation‚ search Illustration of the electromagnetic spectrum. Note the visible spectrum‚ as well as ultraviolet and infrared regions. Photochemistry‚ a sub-discipline of chemistry‚ is the study of the interactions between atoms‚ small molecules‚ and light (or electromagnetic radiation).[1] The pillars of photochemistry are UV/VIS spectroscopy‚ photochemical reactions in organic chemistry and photosynthesis in biochemistry
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Light Absorption by Photosynthetic Pigments in Silver Beet Abstract The aim of the experiment was to determine the absorption of differing wavelengths of light by individual pigments in the vegetable silver beet. Pigments were extracted from silver beet leaves and separated into chlorophyll a‚ chlorophyll b‚ and carotene via chromatographs. Chlorophylls were then separated and an absorption spectra created using results obtained from a spectrophotometer. It was clear there were two distinct peaks
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