CHAPTER FIVE About 75% of the energy generated by a car’s engine is lost as heat You’d have to run 14 miles to burn the calories from one large pepperoni pizza
SOME BASIC ENERGY CONCEPTS Energy makes the world go around what is energy? Energy is the capacity to perform work
Conservation of Energy Kinetic energy is energy in motion Potential energy is energy in storage 2 High potential energy 1 Conversion of kinetic energy to potential energy 3 Conversion of potential energy to kinetic energy 4 Low potential energy
Conservation of Energy Energy can be converted from one form to another but it cannot be created or destroyed
Heat Heat is a type of kinetic energy randomized energy
Chemical Energy Chemical energy is a form of potential energy is found in food, gas, and other fuels
Waste products poor in chemical energy Fuel rich in chemical energy Heat energy Gasoline Carbon dioxide Combustion Kinetic energy of movement Oxygen Water (a) Energy conversion in a car
Heat energy Cell respiration Carbon dioxide Food Oxygen Water Energy for cellular work (b) Energy conversion in a cell
Cell respiration is the energy-releasing chemical breakdown of fuel molecules
Food Calories A calorie is the amount of energy that raises the temperature of 1 gram of water by 1 degree Celsius
1 Calorie = 1,000 calories the unit used to measure the energy in food
ATP AND CELLULAR WORK The chemical energy of organic molecules is released in cell respiration to make ATP This release occurs in the mitochondria
ATP (Adenosine TriPhosphate) The Structure of ATP ATP (Adenosine TriPhosphate) adenosine plus three phosphate groups Energy Adenosine Adenosine Phosphate transferred to other molecules
ENZYMES Metabolism is defined as all of the chemical reactions that occur in organisms; rate? Few metabolic reactions occur without the assistance of enzymes
Activation Energy Activation energy the minimum energy required to activate the reaction
Enzymes lower the activation energy for chemical reactions barrier Enzyme Reactants Products (a) Without enzyme (b) With enzyme
Each enzyme is very selective Each enzyme fits to one specific substrate the active site fits to the substrate and the enzyme changes shape slightly; induced fit
Enzymes are reusable Substrate (sucrose) 1 2 Active site Enzyme available with empty active site Active site 2 Substrate binds to enzyme Enzyme (sucrase) Fructose Glucose 4 Substrate is converted to products Products are released 3
Enzyme Inhibitors Enzyme inhibitors inhibit a metabolic reaction bind to the active site, as substrate impostors Substrate Inhibitor Substrate Active site Active site Enzyme Enzyme (a) Normal enzyme action (b) Enzyme inhibition by a substrate imposter
Passive Transport: Diffusion Across Membranes Molecules contain heat energy they vibrate and wander randomly Diffusion is one result of the movement of molecules molecules tend to spread into the available space diffusion is passive transport; no energy is needed
Molecules of dye Membrane Equilibrium (a) Passive transport of one type of molecule Equilibrium (b) Passive transport of two types of molecules
Osmosis and Water Balance in Cells Osmosis is the passive transport of water across a selectively permeable membrane Hypotonic solution Hypertonic solution Isotonic solutions Sugar molecule (solute) Selectively permeable membrane Osmosis (net movement of water)
Water Balance in Cells The survival of a cell depends on its ability to balance water uptake and loss Animal cell Normal Lysing Shriveled Plasma membrane Plant cell Flaccid (wilts) Turgid Shriveled (a) Isotonic solution (b) Hypotonic solution (c) Hypertonic solution
Lower solute concentration Higher solute concentration Active Transport Active transport requires energy to move molecules across a membrane Lower solute concentration Solute Higher solute concentration
Exocytosis and Endocytosis: Traffic of Large Molecules secretes substances outside of the cell Outside cell Plasma membrane Cytoplasm (a) Exocytosis
Endocytosis takes material into the cell (b) Endocytosis