Energy & Metabolism. Kinetic Energy. Potential Energy. Chapt. 6
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1 Energy & Metabolism Chapt. 6 All living things require energy One of the primary functions of macromolecules is to provide E. Energy is the ability to do Work Energy exists in two forms: Kinetic Energy Potential Energy Kinetic Energy Kinetic energy is the energy of motion. An object which has motion - whether it be vertical or horizontal motion - has kinetic energy. There are many forms of kinetic energy - vibrational (the energy due to vibrational motion), rotational (the energy due to rotational motion), and translational (the energy due to motion from one location to another). The amount of translational kinetic energy which an object has depends upon two variables: the mass (m) of the object and the speed (v) of the object. Kinetic energy is an expression of the fact that a moving object can do work on anything it hits; Moving objects cause other objects to move Movement is work Text pg 96 Potential Energy Stored energy Objects with the capacity to do work but not active now have PE. Kid on the top of a slide Bolder perched on an edge Chemical bonds Much of life relates to converting PE to KE PE= mass x gravity x height 1
2 Forms of Energy Mechanical Sound Electricity Light Radiation Heat Heat Useful way to study energy because all other E. forms can be converted to heat This is the study of Thermodynamics Heat Energy measured in units of calories or kilocalories Thermodynamics Thermodynamics is a branch of physics which deals with the energy and work of a system 2
3 Energy Flow Ultimately, all E. for life on earth comes from the sun Sunlight shines 40 million billion calories/second on earth! Plants, algae and photosynthetic bacteria convert sun E. to sugars Sunlight to Chemical Bonds Photosynthesis converts a small (~10%) amount of sun E. into covalent bonds Where does the rest (~90%) of sunlight E. go? Energy from Chemical Bonds Chemicals may be considered from a potential energy or kinetic energy standpoint. One pound of sugar has a certain potential energy. If that pound of sugar is burned the energy is released all at once. The energy released is kinetic energy (heat). So much energy is released that organisms would burn up if all the energy was released at once. Organisms must release the energy a little bit at a time. 3
4 Covalent Bonds Sharing of electrons between atoms Covalent bonds are a form of PE Energy is stored in each covalent bond Breaking covalent bonds releases E. ~98Kcal/Mole for C-H bonds Bond energy is the energy in each orbiting e- Electron Energies In Oxidation/Reduction reactions e- are passed from one atom to another Oxidized atom gives e- to reduced atom Reduced form now has more energy than oxidized one The amount of E passed on by e- depends on how far it was from the nucleus Reduction is the gain of an electron. Sometimes we also have H ions along for the ride, so reduction also becomes the gain of H. Oxidation is the loss of an electron (or hydrogen). 4
5 Photon of Light 5
6 6
7 Red/Ox Reaction: NADH/ NAD + Example of the Energy in Covalent Bonds Photosynthesis: 6CO H 2 O + Light E. C 6 H 12 O 6 +6O 2 + 6H 2 O Light Energy requirements = ~3,000-7,000 Kcal Respiration: C 6 H 12 O 6 + 6O 2 6CO 2 + 6H 2 O + Energy Energy released = 686 Kcal 7
8 Energy Loss in each Energy Transfer Photosynthesis uses lots of energy ( Kcal) to produce one glucose molecule But, the energy released from one glucose molecule produces only 686Kcal Most of the excess energy is lost as Heat...but the energy is never really gone All Energy transfers follow certain rules The Laws of Thermodynamics First Law Energy can never be created nor destroyed. The total amount of Energy in the universe remains always the same, it just changes forms First Law Energy can be exchanged between systems and their surroundings However, the total energy of the system plus the surroundings is constant. That's the First Law of Thermodynamics. The First Law is also stated as energy is conserved. 8
9 How do we know this? This is an empirical law, which means that we know that energy is conserved because of many repeated experiments by scientists. It's been observed that you can't get any more energy out of a system than you put into it. James Prescott Joule did a famous experiment which demonstrated the conservation of energy and showed that heat and work were both of the same nature: energy. His experiment involved water in a thermally insulated containerand a paddle which was connected to the outside world (surroundings). Joule found that the amount of energy could change from one form to another (work to heat); however, no net change of energy in the system plus the surroundings occurred and thus Energy is conserved. The First Law of Thermodynamics The first law is very simple: You can't create or destroy energy. You can just change it from one form to another, for example, electricity to heat, heat that will boil water and make steam, hot steam to push a piston (mechanical energy) or turn a turbine that makes electricity which can be changed to light (in a light bulb) or, using only a tiny quantity changed to sound in an audio speaker system, and so forth. The Second Law Energy spontaneously tends to flow only from being concentrated in one place to becoming diffused or dispersed and spread out. A blowout in a tire and lightning -- what could seem to be more unlike than those! Yet the reason for their occurring is the same, the tendency for concentrated energy not to stay localized, to disperse if it has a chance and isn't hindered somehow. 9
10 The Second Law Energy is constantly being converted to random molecular motion (heat Energy) This random motion is less ordered (disordered) and is always increasing The universe is becoming more disordered all the time Disorder = Entropy And Entropy is always increasing And so The Universe is Breaking Down Entropy is increasing It takes constant E. inputs to keep a road in good shape, your car running and your dorm room clean Leave things alone and things fall apart Playing cards rarely form a card house without your help card houses, once built, usually fall apart. So What s This Got to do with Life? Metabolism.involves E. transfers Biological Reactions follow this format: Reactants --> Products A B Energy transfers go along with this 1. Reactants --> Products + Energy 2. Energy + Reactants --> Products 10
11 Energy from Food Some living things can convert sun E. to food E. Food E. transfers from Plant to Deer to Coyote Each E. transfer step loses ~90% to heat (random molecular motion). How to measure the Energy in a molecule? Energy in a molecule (G) equals the energy in the chemical bonds (H) minus the energy lost as heat (S) G= H - S Also...The heat factor increases with Temp (T) G = H - ST In Chemical Reactions, usually it s the Change in E. between Reactants and Products that matters?g =?H - T?S 11
12 Energy + Reactants --> Products If products contain MORE energy than reactants Energy input is required for reaction Reactions will NOT occur spontaneously Termed Endergonic reactions?g value is positive Text pg. 99 Endergonic Reactions?G =?H - T?S Products contain MORE energy than reactants?g value is positive Reactants --> Products + E Products contain LESS energy than reactants, excess E. is released Energy is released to do work Reactions will occur spontaneously Termed Exergonic reactions?g value is negative Text pg
13 Exergonic Reactions?G =?H - T?S Products contain LESS energy than reactants?g value is negative Activation Energy If so many reactions are exergonic and release energy spontaneously, why haven t they already all occurred? They all require a bit of E. input This is the Activation Energy A kid on the slide needs a slight push Text pgs. 103 Catalysts and Enzymes The role of a catalyst is to lower the amount of E. to push a reaction forward Catalysts may be biological or chemical Biological catalysts are termed enzymes Catalysts (and enzymes) thus lower the Activation E. Text pg
14 Enzymes Speed up reactions by bringing molecules together or by putting stress on covalent bonds to break them Enzymes can speed up reactions thousands-millions of times faster CO 2 + H 2 O --> H 2 CO 3 Enzyme for this reaction is carbonic anhydrase How Enzymes Work to Speed Up Reactions Substrate molecule binds to enzyme active site This forms an enzyme-substrate complex Enzyme may now act on substrate to induce a change Text pg. 104 Factors Affecting Enzyme Activity Temperature ph Text pg. 112 Inhibitors Competitive Non-competitive 14
15 Competitive Inhibitors Compete with normal substrate molecule for enzyme active site Text pg. 109 Noncompetitive Inhibitors Bind to a different site on enzyme and change its conformation Text pg. 109 How do cells use the energy of chemical bonds for work in the cell? By creating an energy-rich compound for use now or stored for later use 15
16 ATP Chief energy currency of cells Plant photosynthesis results in this compound being produced ATP powers many cell reactions A nucleotide composed of sugar, adenine and 3 PO 4 Text pg
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