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Energy and Living Organisms. Living organisms require energy to perform functions. They: Kidney cells: to transports materials Digestive tract: break macromolecules Heart: to pump. Thermodynamics and Metabolism. Metabolism. Metabolism : Anabolism : Catabolism :. Flow of Energy.
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Energy and Living Organisms • Living organisms require energy to perform functions. They: • Kidney cells: • to transports materials • Digestive tract: • break macromolecules • Heart: • to pump
Metabolism Metabolism: Anabolism: Catabolism:
Flow of Energy Energy: Energy can take many forms: mechanical electric current heat light All energy can be classified as: -kinetic energy: -potential energy:
Potential Energy • stored energy. • ___________________________________ • ___________________________________
Flow of Energy Potential energy stored in chemical bonds can be transferred from one molecule to another by way of electrons. oxidation: reduction: redox reactions
Kinetic Energy • Energy of motion • ________________________________________ • ________________________________________
Thermodynamics • Study of heat and energy flow within chemical reactions
Laws of Thermodynamics First Law of Thermodynamics – For example: sunlight energy chemical energy photosynthesis
Exercise to lose weight • produce heat and you sweat • heats the air around you. • When you eat a pizza • energy from the chemical bonds in the bread, cheese, etc. is broken down • converted into ATP molecules through cellular respiration.
Enthalpy • ______________________________________________________________________________ • The enthalpy change (ΔH) • amount of heat released or absorbed when a chemical reaction occurs at a constant pressure. • ΔH formation = _____________________________
Potential Energy Diagram • Reactants: • Activation energy (Ea): • Transition state: • Products:
Exothermic Reactions • some of the reactant's potential energy is released into the surroundings as heat. • enthalpy of the products is ____________________ • energy is _____________ • ΔH is ____________
Exothermic Reaction http://cwx.prenhall.com/petrucci/medialib/media_portfolio/text_images/019_THERMITE.MOV
Laws of Thermodynamics Second Law of Thermodynamics: entropy: The 2nd Law of Thermodynamics states that entropy is always increasing.
Laws of Thermodynamics Free energy: -denoted by the symbol G (Gibb’s free energy) enthalpy: free energy = enthalpy – (entropy x temp.) G = H - TS
Laws of Thermodynamics • Chemical reactions can create changes in free energy. • When products contain more free energy than reactants DG is positive. • When reactants contain more free energy than products DG is negative.
Laws of Thermodynamics Chemical reactions can be described by the transfer of energy that occurs: endergonic reaction: exergonic reaction:
Laws of Thermodynamics Most reactions require some energy to get started. activation energy: catalysts:
Respiration C6H12O6 + O2 → CO2 + H2O + Energy (as ATP) ΔG = - 2870 kJ/mol of glucose • release of energy • an increase in entropy • This reaction tends to proceed spontaneously.
Photosynthesis Photosynthesis Chemical Equation CO2 + H2O + Energy → C6H12O6 + O2 ΔG = + 2870 kJ/mol of glucose • energy is absorbed • a decrease in entropy • This reaction does not proceed spontaneously as energy is needed to drive the reaction.
Energy Currency of Cells ATP= adenosine triphosphate ATP structure:
Section 9.1 P A P P Adenosine Triphosphate (ATP)
Section 9.1 P P P Adenosine Triphosphate (ATP) • Mono = One phosphate group • Di = Two phosphate groups • Tri = three phosphates groups A
Section 9.1 The battery of the cell
Energy Currency of Cells When the bond between phosphates is broken: ATP ADP + Pi energy is released ADP = adenosine diphosphate Pi = inorganic phosphate This reaction is reversible.
