Transcript Plant VTTs (cellular respiration)

Driving question: How does a
tree grow and live?
What & How
1. What does the tree need in order to grow and live?
2. How tree use them to grow and live?
Inputs and outputs in a tree
Can you decode what happens inside a tree and how
does a tree grow and live?
Flow chart of tracing materials inside the tree
H2 O
(inorganic)
Sunlight
energy
chloroplast
CO2
(inorganic)
Minerals
(inorganic)
Photosynthesis
Glucose
(organic)
Biosynthesis
Cells membrane,
mitochondria
Outside
tree
Cellular
Respiration
H2 O
(inorganic)
CO2
(inorganic)
Energy for
plant function
Cell walls,
cytoplasm
Plant biomass
(large organic
molecules)
Inside
tree
Minerals for
cells growth
Inside
tree
Cellular respiration part
Tree’s cellular respiration at macroscopic scale
Leaves
Branch
Trunk
Roots
How do cells in the trunk of the tree get energy to move
materials up and down the trunk?
Movement of materials at macroscopic scale
scales
Large scale
Macroscopic
Microscopic
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
Transformation of materials at macroscopic scale
Large scale
Glucose
water
scales
(Inside the tree)
(Inside the tree)
Macroscopic
Microscopic
oxygen
(From airs to tree)
carbon
dioxide
Cellular respiration
(From tree to air)
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
Transformation of energy at macroscopic scale
Large scale
Heat
scales
Chemical
energy
(Inside the tree)
Work
Macroscopic
(For plant to live)
Microscopic
Cellular respiration
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
Transformation of materials and energy at macroscopic scale
Heat
Large scale
Chemical
energy
Work
(For plant to live)
Glucose
(Inside the tree)
scales
water
(Inside the tree)
Macroscopic
Microscopic
oxygen
carbon
dioxide
(From air to tree)
(From tree to air)
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
What happens of cellular respiration at microscopic scale ?
Movement of materials at microscopic scale
Large scale
scales
Macroscopic
Microscopic
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
Transformation of energy at microscopic scale
Large scale
Heat
Macroscopic
scales
Chemical
energy
Work
Microscopic
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
Transformation of materials at microscopic scale
Large scale
Macroscopic
sugar
water
(Inside the cell)
scales
(From tree to cell)
carbon
dioxide
oxygen
Microscopic
(From air to cells)
(From cell to air)
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
Transformation of materials and energy at microscopic scale
Heat
Large scale
Macroscopic
Chemical
energy
Work
sugar
(From tree to cell)
scales
water
(Inside the cell)
oxygen
Microscopic
carbon
dioxide
(From air to cells)
(From cell to air)
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
What happens to oxygen and glucose at atomicmolecular scale?
: C6H12O6
: O2
Transformation of matter at atomic molecular scale
Large scale
scales
Macroscopic
C6H12O6
H2O
Microscopic
O2
CO2
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation with high energy bonds
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
Atoms movement of cellular respiration
Large scale
scales
Macroscopic
Microscopic
Click to see
animation
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation with high energy bonds
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
Transformation of energy at atomic molecular scale
Large scale
scales
Macroscopic
Microscopic
Heat
Chemical
energy
Work
(For plant to live)
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation with high energy bonds
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
Transformation of matter and energy at atomic molecular scale
Heat
Large scale
Chemical
energy
scales
Macroscopic
Work
C6H12O6
(For plant to live)
H2O
Microscopic
O2
CO2
Atomic
molecular
Analyzing
Matter
Material identity
Matter Movement
Energy
Energy transformation with high energy bonds
Process
All filter
photosynthesis
Blank
Cellular respiration
Biosynthesis
The End