Transcript Lesson 6 (cellular respiration) powerpoint

Driving question: How do cows
move?
What & How
1. What does a cow need in order to move?
2. How a cow use them to grow and move?
Inputs and outputs in cow’s body
Can you decode what happens inside cow’s body and
how does cow move?
Flow chart of tracing food inside the body
Food
(large organic
molecules)
Digestion
system
Digestion
Circulatory
system
Small organic
molecules
Biosynthesis
Cells
Circulatory
system, lungs
Cellular
Respiration
Animal biomass
(large organic
molecules)
For animal growth
H2O & CO2
For animal
movement
Body
tissues
Body
Matter enter/leave plants/animals
Materials in grass
(materials entering cow)
Materials entering grass
C02
Carbohydrates
H20
C02
H20
Protein
H20
Materials leaving cow by
breathing, urine and perspiration
H20
Cow’s feces
Fat
H20
Materials in cow
Cellular respiration part
How does oxygen and food help a cow move?
Matter movement of cellular respiration at macroscopic scale
scales
Large scale
Macroscopic
Microscopic
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Analyze cellular respiration at macroscopic scale
scales
Large scale
Macroscopic
Microscopic
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Matter transformation for cellular respiration at macroscopic scale
Large scale
scales
Glucose
water
Macroscopic
Microscopic
oxygen
carbon
dioxide
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Energy transformation of cellular respiration at macroscopic scale
Large scale
Heat
scales
Chemical
energy
Macroscopic
Work
(For animal to live)
Microscopic
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Cellular respiration at macroscopic scale
Heat
Large scale
Chemical
energy
Work
(For animal to live)
scales
Glucose
water
Macroscopic
Microscopic
oxygen
carbon
dioxide
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
What happens of cellular respiration at microscopic scale ?
Mitochondria
Matter movement of cellular respiration at microscopic scale
Water
Large scale
Macroscopic
scales
Glucose
Microscopic
Carbon
dioxide
Oxygen
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Analyze cellular respiration at microscopic scale
Large scale
scales
Macroscopic
Microscopic
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Matter transformation of cellular respiration at microscopic scale
Large scale
scales
Macroscopic
Microscopic
water
Oxygen
carbon
dioxide
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Energy transformation of cellular respiration at microscopic scale
Large scale
Heat
Macroscopic
scales
Chemical
energy
Work
Microscopic
(For animal to live)
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Cellular respiration at microscopic scale
Heat
Large scale
Chemical
energy
Work
(For animal to live)
scales
Macroscopic
water
Microscopic
Oxygen
carbon
dioxide
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
What happens to oxygen and glucose at atomic-molecular scale?
: C6H12O6
: O2
Analyze cellular respiration at atomic-molecular scale
Large scale
scales
Macroscopic
Microscopic
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Matter transformation of cellular respiration at atomic-molecular scale
Large scale
scales
Macroscopic
C6H12O6
H2O
Microscopic
O2
CO2
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Matter movement of cellular respiration at atomic-molecular scale
Large scale
scales
Macroscopic
Microscopic
Click to see
animation
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Energy transformation of cellular respiration at atomic-molecular scale
Large scale
Heat
scales
Macroscopic
Microscopic
Chemical
energy
Work
(For animal to live)
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
Cellular respiration at atomic-molecular scale
Heat
Large scale
Chemical
energy
scales
Macroscopic
C6H12O6
Work
(For animal to live)
H2O
Microscopic
O2
CO2
Atomic
molecular
Analyzing
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank
The end
(optional) Metabolism of fat atomic-molecular scale
Heat
Large scale
Chemical
energy
scales
Macroscopic
Work
(For animal to live)
Microscopic
Fatty acid
Atomic
molecular
Analyzing
O2
H2O
CO2
Object
Matter
Process
Matter Movement
Carbohydrates
Material identity
Digestion
Biosynthesis
All
Protein
Energy
Cellular respiration
Fat
Energy transformation
Blank