This experiment gives an insightful look into the effects temperature, and light intensity has on the rate of photosynthesis of a C3 plant. An experiment carried out to measure this proved wrong the general scientific believe that rate of photosynthesis of C3 plants is faster when closer to source of light and at room temperature, but concurs with the notion that photosynthesis occurred slower when the plant is farther away from source of light, and when at a high, or low temperature. Since it was noted that the inability of the experiment to fully support the general scientific notion might be due to some error or irregular changes in the experimental procedure, further experiment to fully support the hypothesis was proposed. This work also noted the relevance of photosynthesis in human's daily life.
             The impact of temperature and light intensity on the rate of photosynthesis cannot be overlooked in the field of science. It is believed that temperature exerts a great impact in plants life. According to Herbert (2006), "it is the abiotic factor that most influences the geographical distribution of plants and their seasonal patterns of growth" (Pg. 1). Also, chlorophyll A & B and carotenoids, which are the pigments that absorb light photons, absorb certain color of light spectrum differently and at different wavelengths as well. A biologist book shows that the rate of photosynthesis is best at wavelength of 400nm to 450nm and poor at wavelength of 550nm (Brooker, 2011, Pg.162). For photosynthesis to occur water and carbon dioxide react in the presence of sunlight to form carbohydrate (glucose) and oxygen.
             It is also noted that the structure of spinach leaf, which is a C3 plant, "allows gases to be stored in the air sacs that are created by the spongy mesophyll layer of cells" (Dalton, 2010, Pg. 254) A research carried out earlier by Govindjee et al (2008) shows that "the enzyme rubisco (RuBp) that incorporates CO2 to fix carbon also...