Name Biology-Honors Teacher December 6‚ 2012 Photosynthesis Lab 1. Introduction: Light dependent reactions are the first phase of photosynthesis. It requires light to happen and happens in the thylakoid membrane in a chloroplast. The light energy is absorbed from the sun and converted into chemical energy. Which is then stored temporarily in ATP and NADPH. Hypothesis: I predict that the wavelength intensity will affect the rate of photosynthesis more than light intensity will. 2. Data:
Premium Photosynthesis Light Adenosine triphosphate
Bioenergetics Photosynthesis & Respiration Laboratory Report Exercise 6 PBIO101 ________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ Gina Dedeles Minda Dimaano-Kho Group 5 Felicita‚ Haniel Paulo‚ Gisselle Mildred V. Aniseta‚ Carmelus*Absent but present
Free Carbon dioxide Photosynthesis Oxygen
Photosynthesis and the Amount of Light _______________________________________________________________________ I. Introduction Photosynthesis the process where plants use sunlight (energy) to synthesize foods forming the products carbohydrates and water (H20 + CO2 + Light CH2O + O2). For photosynthesis to take place they need water‚ carbon dioxide and light and chloroplasts. Light is absorbed inside he thylakoid
Premium Photosynthesis Plant Oxygen
germination of a seed affected by sunlight?” Experimental Hypothesis: We believe these results will occur. 1. The seeds that are water deprived (1 mL of H2O a day) will not grow very well due to a lack of water which is important in photosynthesis and also lacks nutrients. The seeds may also die off due to a lack of water. 2. The seeds that are have a proper amount of water (10 mL of H2O a day) will grow the best and achieve the greatest height‚ and overall best appearance.
Premium Plant Seed Plant morphology
product of photosynthesis‚ which is the process that converts energy in sunlight to chemical forms of energy that can be used by biological systems2. Many organisms are not able to use the energy obtained from sunlight directly; however‚ plants are able to use this energy and convert it into chemical energy by converting CO2 (carbon dioxide) and H2O (water) to organic materials3. The energy source for photosynthesis comes from sunlight‚ which allows for the fuel that drives photosynthesis. This process
Premium Management Marketing German language
Variagated Leaves Total absence of plastid pigments causes a sector of a leaf or stem to have white patches. This condition is termed variegation (Metrosideros). Variegation is produced when there is a cell mutation (cytological chimera)‚ and all cells produced from that mutant mother cell lack the pigments‚ either because plastids are not present or the plastid cannot complete the manufacture of the pigment apparatus. White‚ therefore‚ is where color is missing. The zones where chloroplasts are
Premium Photosynthesis Plant physiology Plant
Biochemistry of Photosynthesis Overall Word Equation: Water+ Carbon Dioxide( Carbohydrates+ Oxygen ((: light + chlorophyll) 1. Light Dependent Stage/ photochemical reaction/ light reactions: Word Equation: Water ( Hydrogen ions + Oxygen ((: light + chlorophyll) Site: On the Thylakoid membrane of the chloroplast Major events: • Light absorption o Chlorophyll in the thylakoids absorbs light. The
Free Photosynthesis
Alugbati is a succulent‚ branched‚ smooth‚ twining herbaceous vine‚ several meters in length. Stems are purplish or green. Leaves are somewhat fleshy‚ ovate or heart-shaped‚ 5 to 12 centimeters long‚ stalked‚ tapering to a pointed tip with a cordate base. Spikes are axillary‚ solitary‚ 5 to 29 centimeters long. Flowers are pink‚ about 4 millimeters long. Fruit is fleshy‚ stalkless‚ ovoid or nearly spherical‚ 5 to 6 millimeters long‚ and purple when mature. • Phytochemical screening of various
Premium Purple Nutrition Plant morphology
Autumn Leaves Trees have green leaves due to the abundance of chlorophyll and chloroplasts in leaves. These organelles absorb‚ store and convert light energy from the sun and is necessary photosynthesis to occur. These organelles reflect green light which attributes to the green color of leaves. The leaves change color in the fall and winter do to the shortened times of daylight and lower temperatures. Trees also divert nutrients from leaves to store in twigs and branches for preparation of winter
Premium Photosynthesis
The green leaves Leaves look green because of the chemical chlorophyll. The other reason is that they reflect light in the green spectrum. Chlorophyll absorbs light most strongly in the blue portion of the spectrum‚ and then some in the red portion. Leaves receive their green color during the process of trying to absorb energy from the sun. The sunlight strikes the leaves‚ which contain chlorophyll‚ and the chlorophyll reacts by emitting the green color. Leaves are green because that is the
Premium Photosynthesis Light Sun