THE NEED FOR ENERGY

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Transcription:

THE NEED FOR ENERGY HTTP://WWW.YOUTUBE.COM/WATCH?V=BBTQF9Q_PFW

CHARACTERISTICS OF LIFE 1. Life is based on organic chemistry 2. Composed of cells- smallest living unit 3. Use energy 4. Form and size range 5. Growth (and development) 6. Life span 7. Response to environment 8. Reproduction 9. Adapt/evolve over time

- Energy is the ability to do work - Many types of energy: - Physical - Mechanical - Electrical - Chemical - Potential=stored - Kinetic= being used - *can be transformed from one type to another battery: chemical to electrical, roll downhill: potential ENERGY The chemical energy cells use ATP

CELL PROCESSES THAT REQUIRE ENERGY 1.Cell movement cilia, flagella 2. Active transport [low] to [high] -- endocytosis, exocytosis, 3. Mitosis cells divide

ALL ORGANISMS NEED ENERGY FOR LIFE How is energy obtained? 1. producer = 2. consumer = Organisms need energy because cells need energy to function! Ex: working out

WHAT ORGANELLE STORES/RELEASES ENERGY? MITOCHONDRIA! - Power house of the cell

HOW MUCH ATP DO HUMAN CELLS USE? - Each cell in the human body is estimated to use between one billion and two billion ATP s per minute - With 100 trillion cells in the human body, how much ATP do we need? - In the span of 24 hours, 100 trillion cells produce @ 441 lbs of ATP!

ENERGY ENERGY MOLECULE = ATP Adenosine triphosphate Adenosine molecule + 3 phosphate groups A P ~ P ~ P

MAKE UP OF ATP: ATP = Adenosine triphosphate - Adenosine molecule adenine + ribose sugar - 3 phosphate groups

ENERGY - Energy is stored in chemical bonds of the molecule - Can be used quickly and easily by the cell - When molecule is broken down, energy is released

- Energy of ATP is stored in chemical bonds between phosphate groups - When one bond breaks one P-group is released; energy is given off ATP ADP (Adenosine diphosphate) - When two bonds break two P-groups are released energy is given off ADP AMP (Adenosine monophosphate)

WHY IS ENERGY STORED IN THE BONDS? - Phosphate groups are negatively charged - Like charges repel (and opposites attract) - Energy is therefore needed to keep ATP together AMP ADP ATP little energy most potential energy to keep ATP stored together AND to break bond(s)

ATP ADP + P or ADP + P ATP * Continuous cycle *

MODEL ATP is the ultimate form of energy for living things! ADP = adenosine diphosphate ATP = adenosine triphosphate

WHY IS ADP-ATP CYCLE IMPORTANT? - Cell doesn t have to store all the ATP it needs - As long as P-groups available, cycle can continue to make more energy - Cell can use ADP for energy if it has to (not typically done, though)

ADP-ATP CYCLE AND A BATTERY How does the ADP-ATP Cycle compare to a cell phone battery? Rechargeable/renewable cycle - Use energy to text, tweet, etc. - When all used up, phone dies - Charge it back up and add energy by plugging phone into electrical outlet - Battery is re-charged and more energy is made - Cycle continues, just as the ADP-ATP cycle does!

HOW DO THE CELLS GET THE ENERGY? - Many proteins have a specific binding site for ATP to bind to - When bound, a P-group is released, forming ADP - Protein then releases ADP so that another ATP can bind to the binding site

ATP-ADP CYCLE IN THE BODY - When a muscle contracts, ATP gives off its energy (ATP bond is broken to release the energy, leaving ADP) (The ADP is recharged into ATP when we eat) - Glucose from the food you consumed is broken down, creating more ATP - ATP can then be used again to cause another muscle contraction

Making atp http://www.youtube.com/watch?v=v_xzucpihvk

REVIEW: 1. What does ATP stand for? ADP? AMP? 2. What three molecules are in ATP? 3. How does ATP store energy? 4. How can ADP be recycled to form ATP again? 5. How do proteins access energy?

WORKSHEET

OXIDATION-REDUCTION REACTIONS Transfer of one or more electrons and/or energy from one compound to another -- Two Parts: * Oxidation * Reduction OIL RIG ------ LEO (says) GIR

OXIDATION REACTION The loss of electrons, hydrogen atoms, or energy from a substance. Or the gain of oxygen. Oxidation 6CO 2 + 6H 2 O C 6 H 12 O 6 + 6O 2 glucose THIS IS PHOTOSYNTHESIS!

REDUCTION REACTION The gain of electrons, hydrogen atoms, or energy to a substance. Or the loss of oxygen. Reduction 6CO 2 + 6H 2 O C 6 H 12 O 6 + 6O 2 glucose THIS IS PHOTOSYNTHESIS!

REDUCTION REACTION ELECTRONS HYDROGEN ATOMS ENERGY OXIDATION REDUCTION OIL RIG ------ LEO (says) GIR

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