The Vascular Plant as an Organism. Metabolic Processes 1. Photosynthesis (in chloroplasts) 6CO 2 + 6H 2 O light C 6 H 12 O 6 + 6O 2 2. Cellular Respiration.
Cell Energy Photosynthesis and Respiration. Section 1 1.Thermodynamics 2.Metabolism 3.Photosynthesis 4.cellular respiration 5.Adenosine Triphosphate.
Today is Wednesday, October 30 th, 2013 Pre-Class: Why are plants green? (Or why are the green parts of them green, at least?) Other stuff: Turn in your.
Photosynthesis. u Process by which plants use light energy to make food. u A reduction process that makes complex organic molecules from simple molecules.
Tuesday, November 23, 2010 Objective: Photosynthesis Lab! Bellringer: Draw a Photosynthesis “KWL” Chart over both Tuesday and Wednesday for this week.
Part 1 Carbohydrates. Energy Release When bonds are broken, __________ is released for use by the cell energy Sucrose: A disaccharide GlucoseFructose.
Photosynthesis PS Learning Targets 1-8. LT’s 1-3:Energy and Old Dead Dudes LT’s 4 & 5:Light and Structures of PS LT’s 6-8:Reactions and Factors of PS.
How do organisms get energy? Autotrophs and Heterotrophs –Autotrophs – organisms that can capture energy from sunlight or chemicals and use it to produce.
Energy in Aquatic Systems Photosynthesis = Traps light energy in glucose. (= Most important.) 6CO 2 + 6H 2 O + light → C 6 H 12 O 6 + 6O 2 Chemosynthesis.
AP Review Chapters 9-12. Fast Facts Metabolic pathways that release energy are called catabolic pathways - fermentation and cellular respiration Cellular.
Photosynthesis How organisms obtain their energy.
Chapter 16. Chemical Reactions Rates and Equilibria The rate of a chemical reaction shows how fast it goes. The equilibrium position of a chemical reaction.