MSP Carbon Teaching Experiment
Energy Inputs Energy Outputs
Matter Inputs Matter Outputs
Solid Solid
Liquid Liquid
Gas Gas
Process: Cellular Respiration(plant living in the dark)
Scale: Macro
Energy Inputs Energy Outputs
Matter Inputs Matter Outputs
Solid Solid
Liquid Liquid
Gas Gas
Process: Cellular Respiration(plant living in the dark)
Scale: Macro
Chemical energy +Heat
Chemical Energy
Carbon DioxideOxygen
Glucose
Water
MSP Carbon Teaching Experiment
MSP Carbon Teaching Experiment
Energy Inputs Energy Outputs
Matter Inputs Matter Outputs
Solid Solid
Liquid Liquid
Gas Gas
Process: Cellular Respiration(plant living in the dark)
Scale: Atomic-Molecular
Energy Inputs Energy Outputs
Matter Inputs Matter Outputs
Solid Solid
Liquid Liquid
Gas Gas
Process: Cellular Respiration(plant living in the dark)
Scale: Atomic-Molecular
Chemical Energy + Heat
Chemical EnergyClic
k here to
see vi
deo
MSP Carbon Teaching Experiment
Cellular respiration Cellular respiration VS Photosynthesis
MSP Carbon Teaching Experiment
C6H12O6 + 6O26CO2 + 6H2O +
• Plant cells need energy for all their functions, such as moving the plant in response to light, moving water, minerals, and sugars around, and making smaller molecules into larger molecules
• Plant cells use ATP as the energy source for all of these functions
• The purpose of cellular respiration is to make high-energy ATP molecules by combining lower-energy ADP molecules with phosphate from soil minerals
What are functions of ATP and ADP?
MSP Carbon Teaching Experiment
Cellular respiration (ADP to ATP )
Chemical Energy (in glucose)
chemical energy (in ATP)
Heat
Water+ Carbon DioxideGlucose + Oxygen
ADP + P ATP
MSP Carbon Teaching Experiment