7.1 Energy for Exercise 2

Question 1

What is ATP-PC/ glycolytic threshold

-give example

Answer 1

-e.g. netballer WA sprints out to receive centre pass over 3-4 secs -> ATP-PC system

-losing possession -> man-man marking for period of a minute -> glycolytic systems takes over

Question 2

What is glycolytic/ aerobic threshold

-give example

Answer 2

after goal is scored in netball, player jogs back in position ready for next centre

-intensity significantly reduced -> sufficient oxygen for aerobic system to take over

Question 3

Why is recovery periods such as quarter and half time breaks in basketball and netball beneficial

Answer 3

-these sports rely on ATP-PC & glycolytic systems

–tho PC stores deplete in 8s -> replenished after 3 mins

-also oxygen stored in myoglobin -> depleted after bouts of exhuastive exercise -> replenished after 3 mins

-so these breaks aid recovery & maintain intensity of game

Question 4

Name the 4 benefits of quater and half time breaks within sport

Answer 4

-aid recovery -> oxygen & energy stores can be replenished

-allow for rehydration

-allow for glycogen/ glucose replenishment

-lactic acid build up can be reduced

Question 5

Why is quarter and half time breaks beneficial in helping reduce rising blood lactate levels

Answer 5

-lactic acid removal is aided by low-intensity activity -> which maintains blood flow &oxygen transport

-lactic acid levels rise durimg high intensity bouts & fall during relief intervals

-this prolongs the duration of an activity

Question 6

What is VO2 max

Answer 6

it is the max volume of oxygen taken, utilised, consumed by working muscles per minute

Question 7

What happens to OBLA as fitness increases and why is this beneficial

Answer 7

as fitness increases you delay OBLA

-due to trained athletes being able to utilise much more of their VO2 max

-increasing their ability to tolerate lactic acid, remove waste products & supply O2 to working muscles

-allowing them to exercise for longer and at a higher intensity

Question 8

Name 4 factors in which affect the duration and effectiveness of recovery

Answer 8

-type of energy system used for exercise

-original fitness level of the player

-position of the player

-tactics and strategies used

Question 9

ATP-PC SYSTEM
-energy source
-site of reaction
-intensity
-duration
-energy yield
-catalyst enzyme

Answer 9

energy source- phosphocreatine

site of reaction- sarcoplasm

intensity- high

duration- 0-10s

energy yield- 1:1

catalyst enzyme- ATPase, Creatine Kinase

Question 10

Glycolytic
-energy source
-site of reaction
-intensity
-duration
-energy yield
-catalyst enzyme

Answer 10

-energy source- glycigen, glucose

-site of reaction- sarcoplasm

-intensity- high mdoerate

-duration- 10s - 3mins

-energy yield- 2:1

-catalyst enzyme- PFK, LDH

Question 11

Aerobic system
-energy source
-site of reaction
-intensity
-duration
-energy yield
-catalyst enzyme

Answer 11

-energy source- glycogen, fat

-site of reaction- mitochondria

-intensity- moderate, low

-duration- 3 mins +

-energy yield- 38: 1

-catalyst enzyme- PFK, GPP

Question 12

Explain the 3 stages in the krebs cycle

Answer 12

stage 1 -> ACETYL COA -> produced from breakdown of glucose combines with OXALOACETIC ACID -> citric acid

stage 2 -> citric acid is oxidised through