Chapter 7+8 Review

Energy Systems

Cellular Respiration & Fuels

Muscle Fibres

Cardiovascular
System

Respiratory
System

100

What is ATP and why is it important?

Energy source for muscle contraction

100

How much ATP is produced during aerobic respiration?

36 ATP

100

Which fibre type is slow-twitch?

Type I

100

What is the pathway of blood from body → heart → lungs?

Vena cava → right atrium → right ventricle → pulmonary artery → lungs

100

What is the pathway of air to the lungs?

Nose → trachea → bronchi → bronchioles → alveoli

200

Which energy system is anaerobic and does NOT produce lactic acid?

ATP-PC (alactic)

200

Why are fats used more during low-intensity exercise?

Require oxygen and produce lots of energy slowly

200

Which fibre type is fast-twitch glycolytic?

Type IIB

200

What is the function of capillaries?

Exchange of gases/nutrients

200

What is the difference between conducting and respiratory zones?

Conducting = air movement, Respiratory = gas exchange

300

Which system produces lactic acid as a by-product?

Glycolysis (anaerobic lactic)

300

When might protein be used as an energy source?

extreme endurance exercise or starvation

300

Which fibre type is a hybrid (both aerobic & anaerobic)?

Type IIA

300

What is cardiac output?

Amount of blood pumped per minute

300

Name one factor that increases diffusion rate

Large surface area / thin membrane / high gradient

400

Which system is used during long-duration, low-intensity exercise?

Aerobic (cellular respiration)

400

During a long-distance run, your body begins to rely more on fats than carbohydrates. Why does this shift happen?

Fats provide more energy but require oxygen, so they are used during longer, lower-intensity exercise when oxygen is available

400

Which fibre type resists fatigue the best?

→ Type I

400

What is the formula for cardiac output?

Q = SV × HR

400

What is VO₂ max?

Maximum oxygen use by the body

500

Rank the 3 energy systems from fastest to slowest ATP production

→ ATP-PC → Glycolysis → Aerobic

500

An athlete suddenly increases intensity from a jog to a sprint. How does their energy source change and why?

The body shifts from aerobic metabolism (fats/carbs) to anaerobic glycolysis (carbohydrates) because it can produce ATP faster without oxygen

500

Why are fast-twitch fibres important for power athletes?

Produce high force quickly but fatigue fast

500

Name one adaptation from cardiovascular training

Lower resting HR / increased stroke volume / stronger heart

500

What happens at the ventilatory or lactate threshold?

Rapid increase in breathing + lactic acid buildup