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Without functional chloroplast to absorb the energy from the light, the electrons will not be bumped to a higher energy level and will not be able to reduce DPIP.
Of the two cuvettes with unboiled chloroplast, the cuvette place in front of the light will have a higher percent of light transmittance than the cuvette placed in the dark because with light, energy can be absorbed, DPIP can be reduced, ATP can be created, and photosynthesis can be carried out.
While most plants use photosynthesis to produce energy, there are some that are non-photosynthetic.
Plants that do not use photosynthesis to produce food are usually parasitic, which means they rely on a host for nutrient generation.
A plant uses the carbon dioxide exhaled by animals and humans in combination with the sun's energy during cellular respiration to produce the food that it requires.
Plants eventually release oxygen back into the atmosphere, resulting in a symbiotic relationship between plants, animals and humans.Unboiled chloroplast will have a higher percent of light transmittance than boiled chloroplast because of the impact temperature has on the proteins/enzymes of the chloroplast.As high temperatures, like the boiling point, the heat generated will denature the enzymes/proteins thus reducing its effect on photosynthesis.Based on prior knowledge and information from this lab, cuvette 3 will have the highest percent of light transmittance and the highest rate of photosynthesis.Since photosynthesis requires light and functional chloroplast to absorb and produce sugars, without either one, the process is interrupted and cannot function properly.Her stint as Manager of the California State Mining and Mineral Museum in California's gold country served to deepen her interest in science which she now fulfills by writing for online science websites. She graduated from San Diego's Coleman College in 1972.Disclaimer: This work was produced by one of our expert writers, as a learning aid to help you with your studies.Without photosynthesis there would be little to no oxygen on the planet.Photosynthesis uses light energy from the sun and carbon dioxide and water in the atmosphere to make food for plants, trees, algae and even some bacteria. The chlorophyll in these living organisms, which also contributes to their green hues, absorbs the sunlight and combines it with carbon dioxide to convert these compounds into an organic chemical called adenosine triphosphate (ATP).ATP is crucial in the relationship between energy and living things, and is known as the "energy currency for all life." Cellular respiration allows all living cells to extract energy in the form of ATP from food and offer that energy for the vital processes of life.All living cells in plants, animals and humans take part in cellular respiration in one form or another. In step one, the cytoplasm of the cell breaks down glucose in a process called glycolysis, producing two pyruvate molecules from one glucose molecule and releasing a bit of ATP.