Energy Systems

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Created by
Kacie Jones

Cards (13)

  • 3 Types of Energy Systems
    • ATP-PC system
    • glycolytic system
    • aerobic system
  • ATP-PC System
    • also known as the alactacid phosphocreatine system
    • breakdown of PC releases energy (exothermic) & this energy is used to resynthesise ATP (endothermic)
    • uses a coupled reaction
    • duration is 3-10s
    • anaerobic reaction
    • fuel used is PC
    • enzyme that breaks down PC is creatine kinase
    • site of reaction is the sarcoplasm of muscle cells
    • 1:1 energy yield
    • waste product is creatine
  • ATP-PC System Evaluation
    + provides energy for very high intensity activity, no fatiguing by-products, no delay for oxygen, ATP can be resynthesised rapidly
    _ low ATP yield, only good for anaerobic events, only lasts 8-10s, limited supply of PC in muscle cells
  • ATP-PC System Sporting Examples
    • very high intensity activity
    • 100m sprint
    • long jump
    • javelin throw
    • gymnastics vault
  • Glycolytic System
    • also known as the lactic acid system
    • consists of the breakdown of glycogen/glucose to pyruvic acid & then this pyruvic acid is then converted into lactic acid
    • duration of up to 3 mins
    • anaerobic reaction
    • fuel used is glycogen/glucose
    • enzymes used are GPP, PKF & LDH
    • site of reaction is the sarcoplasm of muscle cells
    • 1:2 energy yield
    • waste product is lactic acid
  • Glycolytic System Evaluation
    + relatively large amounts of glycogen stored in the body, no delay for oxygen, ATP can be regenerated quickly due to few chemical reactions being needed
    _ lactic acid produced reduces pH & enzyme activity, relatively low ATP yield, OBLA occurs earlier & recovery takes longer
  • Glycolytic System Sporting Examples
    • 400m sprint
    • 100m freestyle swim
  • Aerobic System
    there are 3 distinct stages to this energy system:
    1. aerobic glycolysis
    2. Kreb's cycle
    3. Electron Transport chain
    • duration is anything longer than 3 minutes
    • aerobic reaction
    • fuels used are glycogen/glucose & triglycerides
    • enzymes used are GPP, PFK & ACETYL CO-A
    • 1:38 energy yield
    • waste products are CO2 and H2O
  • Aerobic System - Aerobic Glycolysis
    • site of reaction is sarcoplasm of muscle cells
    • converts glucose into pyruvic acid using the enzyme PFK
    • resynthesises 2 ATP
  • Aerobic System - Kreb's Cycle
    • site of reaction is matrix of mitochondria
    • Acetyl CoA combines with oxaloacetic acid to form citric acid
    • this is oxidised through a cycle of reactions
    • resynthesises 2 ATP
  • Aerobic System - Electron Transport Chain
    • site of reaction is the cristae of mitochondria
    • NAD & FAD split hydrogen atoms into ions & electrons
    • hydrogen ions are oxidised & removed as H2O
    • resynthesises 34 ATP
  • Aerobic System Evaluation
    + high ATP yield, long duration of energy production, no fatiguing by-products, large fuel stores
    _ slow energy production limits activity to sub-maximal intensity, delay for oxygen delivery, complex series of reaction
  • Aerobic System Sporting Examples
    • marathon
    • football game