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Topic: Cellular Respiration Harvesting Chemical Energy Aim: Why is the cellular respiration process important to all living organisms? ATP 2009-2010.

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Presentation on theme: "Topic: Cellular Respiration Harvesting Chemical Energy Aim: Why is the cellular respiration process important to all living organisms? ATP 2009-2010."— Presentation transcript:

1 Topic: Cellular Respiration Harvesting Chemical Energy Aim: Why is the cellular respiration process important to all living organisms? ATP

2 “Burn fuels” to make energy
combustion making heat energy by burning fuels in one step CO2 + H2O + heat fuel (carbohydrates) O2 aerobic respiration making ATP energy (& some heat) by burning fuels in many small steps Movement of hydrogen atoms from glucose to water ATP food (carbohydrates) O2 ATP + CO2 + H2O (+ heat)

3 Energy needs of life Animals are energy consumers
What do we need energy for? synthesis (building for growth) reproduction active transport movement temperature control (making heat) Which is to say… if you don’t eat, you die… because you run out of energy. The 2nd Law of Thermodynamics takes over!

4 Where do we get energy? ATP Energy is stored in organic molecules
carbohydrates, fats, proteins Animals eat these organic molecules  food digest food to get fuels for energy (ATP) raw materials for building more molecules carbohydrates, fats, proteins, nucleic acids ATP We eat to take in the fuels to make ATP which will then be used to help us build biomolecules and grow and move and… live! heterotrophs = “fed by others” vs. autotrophs = “self-feeders”

5 Adenosine TriPhosphate
What is energy in biology? ATP Adenosine TriPhosphate Whoa! HOT stuff!

6 Harvesting energy stored in food
Cellular respiration breaking down food to produce ATP in mitochondria using oxygen “aerobic” respiration usually digesting glucose but could be other sugars, fats, or proteins ATP food O2 Movement of hydrogen atoms from glucose to water glucose + oxygen  energy + carbon + water dioxide C6H12O6 6O2 ATP 6CO2 6H2O +

7 What do we need to make energy?
The “Furnace” for making energy mitochondria Fuel food: carbohydrates, fats, proteins Helpers oxygen enzymes Product ATP Waste products carbon dioxide then used by plants water Make ATP! Make ATP! All I do all day… And no one even notices! food ATP enzymes CO2 H2O O2

8 Mitochondria are everywhere!!
animal cells plant cells

9 Using ATP to do work? Can’t store ATP ATP too unstable
only used in cell that produces it only short term energy storage carbohydrates & fats are long term energy storage Adenosine TriPhosphate work Adenosine DiPhosphate ADP A working muscle recycles over 10 million ATPs per second Whoa! Pass me the glucose & oxygen!

10 { { { ATP A Body’s Energy Budget make energy eat food synthesis
1 make energy • energy needed even at rest • activity • temperature control { ATP eat food • growth • reproduction • repair { 2 synthesis (building) • glycogen (animal starch) • fat { 3 storage

11 What if oxygen is missing?
No oxygen available = can’t complete aerobic respiration Anaerobic respiration also known as fermentation alcohol fermentation lactic acid fermentation no oxygen or no mitochondria (bacteria) can only make very little ATP large animals cannot survive yeast bacteria

12 Anaerobic Respiration
Fermentation alcohol fermentation yeast glucose  ATP + CO2+ alcohol make beer, wine, bread lactic acid fermentation bacteria, animals glucose  ATP + lactic acid bacteria make yogurt animals feel muscle fatigue Tastes good… but not enough energy for me!

13 Summary Question 1. Where does cellular respiration take place inside the cell? 2. What are needed in order to carry out cellular respiration? 3. Why is the cellular respiration process important to all living Organisms?


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