Cellular Respiration .
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Transcript of Cellular Respiration .
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Cellular Respiration
http://www.youtube.com/watch?v=bh__g-ZZ6WA
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Group Questions
1)Predict why it is so hard to stay awake in crowded closed areas like in the video.
• Do not use words like boring, or topic issues as reasons.
2)Explain what causes this level of exhaustion without exercise.
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Group Questions
1) Predict what the church can do to stop this from happening.
HINT
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Glycolysis, Fermentation and the Krebs
Cycle
Cellular Respiration
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Cellular Respiration• Process that releases energy by breaking
down food molecules in the presence of oxygen.
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Cellular Respiration• Process that releases energy by breaking down
food molecules in the presence of oxygen.• 6 O2 + C6H12O6+Energy 6 CO2 + 6 H2O + Energy
Oxygen + Glucose+ Energy Carbon Dioxide + Water + Energy
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Cellular Respiration
Food provides living things with chemical energy they need to grow and reproduce.
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Cellular Respiration
Food provides living things with chemical energy they need to grow and reproduce.
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Cellular Respiration
Food provides living things with chemical energy they need to grow and reproduce.
•1 gram of glucose sugar (C6H12O6)
releases 3811 calories.
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Cellular Respiration
Food provides living things with chemical energy they need to grow and reproduce.
•1 gram of sugar glucose (C6H12O6)
releases 3811 calories.
•calories (lowercase c) – amount of
energy needed to raise the temperature
of 1 Gram of water 1 Celsius degree.
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Cellular Respiration
Food provides living things with chemical energy they need to grow and reproduce.
•1 gram of sugar glucose (C6H12O6)
releases 3811 calories.
•calories – amount of energy needed
to raise the temperature of 1
Gram of water 1 Celsius degree.
•Calorie (capital C)- found on nutritional labels is 1 kilocalorie or 1000 calories of energy.
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Food is Energy
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Glycolysis
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1st STEP…GLYCOLYSIS
Glyco
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1st STEP…GLYCOLYSIS
Glyco Glucose
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1st STEP…GLYCOLYSIS
Glyco Glucose
Lysis
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1st STEP…GLYCOLYSIS
Glyco Glucose
Lysis Splitting
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Glycolysis in #s
• 1st set of reactions • Does not require oxygen –
anaerobic.• Takes place in the
cytoplasm.• 2 ATP molecules are used
and 4 ATP molecules are produced.
• Net result in 2 ATP molecules.
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Part 2: The Krebs Cycle
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My Name Is What, My Name Is…
• The Krebs CycleAKA…..
• The TCA Cycle (tricarboxilic acid)
AKA…..• The Citric Acid Cycle
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The Krebs Cycle• When Oxygen is present the Krebs
cycle follows GLYCOLYSIS.
Hans Krebs
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The Krebs Cycle• When Oxygen is present the Krebs
cycle follows GLYCOLYSIS.
• Pyruvic acid from glycolysis moves
into the mitochondria and is broken
down, releasing carbon dioxide (CO2) and NADH, to form Acetyl –CoA.
Hans Krebs
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The Krebs Cycle• When Oxygen is present the Krebs
cycle follows GLYCOLYSIS.
• Pyruvic acid from glycolysis moves
into the mitochondria and is broken
down, releasing carbon dioxide (CO2) and NADH, to form Acetyl –CoA.
• Krebs Cycle & Electron transport chain
Hans Krebs
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The Krebs Cycle• When Oxygen is present the Krebs
cycle follows GLYCOLYSIS.
• Pyruvic acid from glycolysis moves
into the mitochondria and is broken
down, releasing carbon dioxide (CO2) and NADH, to form Acetyl –CoA.
• Krebs Cycle & Electron transport chain
• Remember this is the more efficient path, has to have oxygen (aerobic), with a NET result of 36 ATP molecules produced.
Hans Krebs
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The Krebs Cycle
Pyruvate
CO2
NADH
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Krebs Cycle• Next process in cellular
respiration that require O2 (aerobic).
• Pyruvic acid is broken down into carbon dioxide (CO2). This is a waste product as well as water while ATP is being generated.
• Krebs Cycle & Electron transport chain
• Net result in 36 ATP
molecules are produced.
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Fermentation• Releases energy from food molecules
without oxygen.
• Two main types:– Alcohol Fermentation (anerobic) – yeasts
produce CO2 and alcohol. Produces bread to rise.
– Lactic Acid Fermentation – pyruvic acid converted to lactic acid. Produced in your muscles during rapid exercise after the O2 runs out. Build-up causes a “burning” sensation.
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Then What happens??
• Fermentation
(Anaerobic)
• Respiration (Aerobic)
Alcohol – yeasts make CO2 and Alcohol
Lactic Acid – produced in muscles when no O2
Krebs Cycle and Electron Transport
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Then What happens??
• Fermentation
(Anaerobic)
- Less Energy
2 ATP
• Respiration (Aerobic)
- MOST Energy
36 ATP
Alcohol – yeasts make CO2 and Alcohol
Lactic Acid – produced in muscles when no O2
Krebs Cycle and Electron Transport
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Aerobic vs Anerobic Respiration
• Aerobic respiration produces 36 ATP molecules of energy
• Anerobic respiration produces 2 ATP molecules of energy.
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Energy and Exercise• Quick Energy-
– Enough ATP in cells normally for about a 5 second sprint.
– Lactic acid production of ATP in muscles will last about another 90 seconds. To remove extra ATP with oxygen, at the end of a race a runner must breathe heavily.
• Long-Term Energy– Cellular respiration that uses up glycogen after
15 to 20 minutes.– Long term energy will then come from stored
molecules including fats.
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Photosynthesis vs Cellular Respiration
• Almost opposite processes
• Photosynthesis deposits energy
• Cell Resp. withdraws energy.
• The chemical equations are reversed.
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ExperimentElodea & Snails
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Experimental Design•Setup 5 Tubes in a closed system
•2 control, 3 experimental•Indicator Solution
•Bromothymol Blue (BTB) – is an acid – base indicator. It measures the concentration of dissolved CO2. Lots of
CO2
Lots of O2
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Experimental Design•Tube 1 – Water & BTB
•Tube 2 – Water, BTB, & CO2
•Tube 3 – Water, BTB, & Elodea (Plant)
•Tube 4 – Water, BTB, CO2, Elodea, & snails
•Tube 5 – Water, BTB, & snails
•Hypothesize what would happen in each of the 5 tubes
•Explain your hypothesis.
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Experiment 24 hr. Time Lapse
http://www.scienceman.com/science10/pgs/techid_u3_10.html
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Experimental DATAOxygen (mg/L)
Time (s) Tube 1 Tube 2 Tube 3 Tube 4 Tube 5
0 4.4 0.0 4.4 4.4 4.4
(1hr) 3600 4.4 0.0 4.8 4.3 4.3
(3hrs) 10800 4.4 0.0 6.0 4.4 4.0
(9hrs) 32400 4.4 0.0 6.8 4.2 3.8
(15hrs) 54000 4.4 0.0 7.4 4.5 3.6
(24hrs) 86400 4.4 0.0 8.0 4.4 3.0
Using your laptops:1)Put all the data into a table2)Make graphs for tubes 3,4, and 53)Answer expanding question:
Why would experiments and information about respiration in closed systems be important to N.A.S.A.