PED101 - Energy Systems

ENERGY SYSTEMS

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Slide 1: Slide

PESecondary Education

This lesson contains 28 slides, with interactive quizzes, text slides and 1 video.

Items in this lesson

ENERGY SYSTEMS

Slide 1 - Slide

How many energy systems
do humans have?

Slide 2 - Quiz

Energy Systems of human body

Aerobic System
Lactic Acid System
ATP-PC System

Slide 3 - Slide

AEROBIC SYSTEM

Slide 4 - Slide

In certain situations, the Aerobic System
can re-synthesize ATP without oxygen

timer

0:20

True

False

Slide 5 - Poll

Any time the term aerobic is used it always relates, involves, or requires oxygen

Slide 6 - Slide

What fuel sources can the Aerobic System
use to re-synthesize ATP?

timer

1:30

Slide 7 - Open question

Fuels used in Aerobic System

Glycogen used as preferred source (Aerobic Glycolysis)

- large glycogen stores in liver

- can transport unused glycogen from other muscles

- after 2 hours body's glycogen stores depleted (carbohydrate loading)

Fats also used as fuel

- but delivery can be slow (time consuming to breakdown fatty body tissues)

- requires large amounts of O2 (increased breathing)

Protein used as last resort!

- Muscles must be broken down to provide fuel.

Slide 8 - Slide

What by-products are produced
in the Aerobic System?

timer

1:30

Slide 9 - Open question

What does the body do with the
by-products?

timer

0:30

Store within muscle cell

Send to mitochondria

Expel into atmosphere

Diffuse into bloodstream

Slide 10 - Quiz

Exercise intensity

A measure of how "easy" or "hard" someone is working

Can be determined by a number of factors including:

Rate of perceived exertion (RPE)
Heart rate
Blood lactate levels
Speed (running/cycling/swimming etc)
Jump height
Throwing distance
Weight lifted (ie. weight training)

Slide 11 - Slide

AEROBIC SYSTEM

Advantages

Disadvantages

Relatively time consuming to re-synthesize ATP because must travel through mitochondria

Therefore can only service

low-to-moderate exercise intensity

Huge pool of fuel sources to call on (glycogen, fats, protein)

Can supply ATP for hours-to-days

Slide 12 - Slide

LACTIC ACID

SYSTEM

Slide 13 - Slide

Is the LACTIC ACID SYSTEM
Aerobic or Anaerobic?

timer

0:20

Aerobic

Anaerobic

Slide 14 - Poll

Is the LACTIC ACID SYSTEM

Aerobic or Anaerobic?

Is the LACTIC ACID SYSTEM

Aerobic or Anaerobic?

Slide 15 - Slide

What is the only fuel source the LACTIC ACID SYSTEM can use?

timer

0:30

Fats

Glycogen

Protein

Water

Slide 16 - Quiz

Lactic Acid System

Anaerobic
Glycogen (anaerobic glycolysis)

LACTIC ACID SYSTEM

Glycogen only
Anaerobic (O2 not required)
Fast re-synthesis of ATP - does not need to travel through mitochondria
Lactic acid produced as by-product

Slide 17 - Slide

LACTIC ACID SYSTEM

Advantages

Disadvantages

If exercise intensity is high and prolonged, build up of Lactic Acid becomes overwhelming to maintain current intensity

Can only service high intensity

exercise for 2 mins before exercise intensity must be reduced

Fast re-synthesis of ATP

Can service high-intensity exercise

Limited pool of Glycogen in body

Once it is gone you "hit the wall"

> feeling of exhaustion

Slide 18 - Slide

Slide 19 - Slide

ATP-PC

SYSTEM

Slide 20 - Slide

What does the "PC" stand for
in ATP-PC?

Politically correct

Creatine Phosphate

Phosphocreatine

Post contact metres

Slide 21 - Quiz

Is the LACTIC ACID SYSTEM

Aerobic or Anaerobic?

Is the ATP-PC SYSTEM

Aerobic or Anaerobic?

Slide 22 - Slide

What fuel source does the
ATP-PC use?

Glycogen (anaerobic)

Pyruvate

Phosphocreatine

ADP + Phosphate

Slide 23 - Quiz

What intensity of exercise does the ATP-PC system service?

Moderate

High

Moderate-to-high

Low-to-moderate

Slide 24 - Quiz

What byproducts are produced
in the ATP-PC system?

timer

0:30

None

Lactic acid

ADP

Carbon dioxide

Slide 25 - Poll

Slide 26 - Video

Bolt's 10m split times

1. At what point did Bolt reach maximum speed?

2. At what point did Bolt significantly slow down?

3. Why did this occur?

Questions

Slide 27 - Slide

Lactic Acid System

Anaerobic
Glycogen (anaerobic glycolysis)

ATP-PC SYSTEM

Phosphocreatine only (anaerobic)
Small store of PC in muscle cells
Extremely fast re-synthesis of ATP
No by-products
Provides approx 10sec worth of energy
Takes 3min to replenish PC stores

Slide 28 - Slide

PED101 - Energy Systems

Items in this lesson

Slide 1 - Slide

Slide 2 - Quiz

Slide 3 - Slide

Slide 4 - Slide

Slide 5 - Poll

Slide 6 - Slide

Slide 7 - Open question

Slide 8 - Slide

Slide 9 - Open question

Slide 10 - Quiz

Slide 11 - Slide

Slide 12 - Slide

Slide 13 - Slide

Slide 14 - Poll

Slide 15 - Slide

Slide 16 - Quiz

Slide 17 - Slide

Slide 18 - Slide

Slide 19 - Slide

Slide 20 - Slide

Slide 21 - Quiz

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Slide 23 - Quiz

Slide 24 - Quiz

Slide 25 - Poll

Slide 26 - Video

Slide 27 - Slide

Slide 28 - Slide

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