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Transcript 
Chapter 9
Energy in a cell
 Energy- the ability
to do work
 The food you eat is
broken down into
monosaccharides
(simple sugars)by
the digestive
system
 Glucose enters
every cell in the
body.
Glucose is broken down
 Your cell’s
mitochondria breaks
down glucose
molecules step by
step.
 Each step releases
energy
 As each chemical
bond is broken,
energy is released
Energy from Food
ATP
 This energy is stored in ATP molecules
 ATP-Adenosine Triphosphate (3
phosphates)
ATP
ADP
 ATP is an energy storing molecule.
 The energy is stored by adding a Phosphate to
ADP (adenosine DIphosphate) to form
ATP.(TRIphosphate
 ADP + P + Energy = ATP
http://www.cat.cc.md.us/courses/bio141/lecguide/unit4/me
ATP Synthesis
When is ATP needed?
 Photosynthesis – an
energy storing
process
 Cellular Respiration
– an energy
releasing process
Photosynthesis: Trapping
Energy
 Photosynthesis-Autotrophs trap energy from
sunlight and use the energy to build simple sugars
Chlorophyll
 Leaves - The site
of Photosynthesis
 Chlorophyll-the
green pigment
found in
chloroplast.
 traps the sun’s
energy.
Formula for Photosynthesis
How many molecules of water are needed to make
4 molecule of glucose (sugar)?
Carbon Dioxide+ Water
Yields
In the
presence of:
Sunlight and
Chlorophyll
Sugar + Oxygen
Parts of Photosynthesis
 1. Light Dependent Reactions- the reactions
which convert light energy into chemical energy
(ATP).
 2. Light Independent Reactions-reactions which
forms sugars from C,O,H. (doesn’t need light)
Light Dependent Reactions
1. Light striking chlorophyll causes electrons
to gain energy and leave orbit.
2. Electrons move down Electron Transport
Chain, generating extra energy.
Do Not Copy
3. ATP is made
Light Dependent Reactions
 Photolysis –
water molecule
is split
– Electron are
used
– H bonds with
NADP to form
NADPH Do Not Copy
– Oxygen is
released
Light Independent Reactions
Calvin Cycle
1. Carbon Dioxide is split
2.Carbon, Oxygen &
Hydrogen (light
reaction). are used to
form a sugar.
3. The energy is provided
by the ATP (light
reaction).
This process takes:
-CO2 from the air
-H from water
-Energy from ATP
-To make food (sugar).
6CO2 +6 H2O -> C6H12O6 + 6O2
Cellular Respiration
 We think of respiration as
breathing
 We take in oxygen breathe
out CO2
 Oxygen is delivered to
every cell in the body by
the circulatory system
 The Oxygen is used to
break down food in the
mitochondria of each cellThis is called Cellular
Respiration
Respiration
 Cellular
Respirationbreaking down
glucose molecules to
release energy.
ATP
Mitochondria
 Formula
C6H12O6 +6O2 ----->6CO2 +6H2O + ENERGY
Glucose + Oxygen = Carbon Dioxide + Water + NRG
Photosynthesis & Respiration
 Opposite Processes
 Respiration- C6H12O6 +O2 ---->CO2 +H2O + NRG
 Photosyn - CO2 + H2O+ Sunlight ---> C6H12O6 + O2
Types of Respiration
 Aerobic Respiration-
requires Oxygen
(air)
 Anaerobic
Respiration-Breaking
down food without
oxygen
Step 1 Glycolysis
 The first stage in
respiration.
 It is Anaerobicno O2 is required
 Breaks a 6carbon sugar into
2, 3-carbon
Pyruvic Acid
molecules.
 2 molecules of
ATP are made.
Do Not Copy
Step 2 Break Pyruvic Acid
 When Oxygen is present.
Do Not Copy
 Aerobic Respiration Begins
 3-carbon pyruvic acid is broken into a 2-
carbon compound and CO2.
3. Citric Acid Cycle
Do Not Copy
 2. Carbon molecules are combined and
broken apart.
 This produces free electrons which
convert NAD to NADH and FAD to FADH
4. Electron Transport Chain
 3. NADH and FADH
release their extra
electrons
 Electrons are moved
along a series of
molecules called the
Electron Transport
Chain.
 The electrons combine
with Oxygen to form
water.
 32 ATP are made
Do Not Copy
Step 2 -Anaerobic
Respiration
 What if No Oxygen
is present after
glycolysis?
Fermentation occurs
 Fermentationbreaking down food
without oxygen
 2 types
– Lactic Acid
Fermentation
– Alcohol Fermentation
Lactic Acid Fermentation
 Produced by humans when they exercise
harder or faster than their body can
deliver oxygen.
 Lactic Acid causes muscle soreness and
fatigue
Alcohol Fermentation
 Bacteria and Yeast carry out this type of
respiration.
 The end products are alcohol and CO2.
 Used to make: Beer, Wine, Bread rising,
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