SOC 9: Long -Term Effects Of Exercise

Question 1

Long term Effects of exercise on the Musculo skeletal system

Answer 1

Increased Strength of ligaments and tendons
Increased bone density
Muscular hypertrophy
Adaptation

Question 2

Aerobic

Answer 2

Working at a moderate intesity level WITH oxygen

Question 3

Anaerobic

Answer 3

Working at a high intensity level without WITHOUT oxyten

Question 4

Long term Effects of exercise on the cardio-respiratory system- your heart

Answer 4

Decreased resting heart rate:Heart gets bigger/stronger with training
Faster recovery rate
Increased resting stroke volume
Maxiumum cardiac output
Size and strength of the heart

Question 5

Long term Effects of exercise on the cardio respiratory system- your blood

Answer 5

Capillaries: Improved fitness increases the number of capillaries in your heart muscle and helps your blood vessels more elastic, flexible and efficient.
Increased number of red blood cells: These cells carry oxygen to the muscles, so having higher red blood cell count can improve their performance.
Drop in resting blood pressure: regular exercise reduces blood pressure due to the muscular wall of the veins and arteries becoming more elastic.

Question 6

Effects on the respiratory system

Answer 6

Increased lung capacity/ volume and vital capacity
Your lungs will become more efficient, and they will be better at delivering oxygen to your working muscles, so your body will cope better during exercise.

Increased number of alveoli
More alveoli will become available for gaseous, exchange after regular exercise, so more oxygen can be absorbed by the capillaries and more carbon dioxide taken from them.

Increased strength of the diaphragm and external intercostal muscles.
Exercise increases the strength of the diaphragm and the external intercostal muscles – the muscles that work to increase airflow during physical activity.

Question 7

Adaptation

Answer 7

Your body’s response to training and how your body changes to cope with new activity.

Question 8

Alveoli

Answer 8

Tiny sacs within our lungs that allow oxygen and carbon dioxide to move between the lungs and bloodstream.

Question 9

Diaphragm

Answer 9

The primary muscle used in the process of inspiration or inhalation

Question 10

Cardiac output

Answer 10

The amount of blood ejected from your heart in one minute (CO) = (SV) X (HR)

Question 11

Resting stroke volume

Answer 11

The amount of blood pumped ber beat

Question 12

Recovery rate

Answer 12

The speed at which your heart returns to RHR ( resting heartrate) after you exercise

Question 13

Increased lung capacity/volume and vital capacity

A

Answer 13

Your lungs will become more efficient, and they will be better at delivering oxygen to your working muscles, so your body will cope better during exercise.

Question 14

Imcreased number of alveoli

Answer 14

More alveoli will become available for gaseous, exchange after regular exercise, so more oxygen can be absorbed by the capillaries and more carbon dioxide taken from them.

Question 15

Increased strength of the diaphragm and external intercostal muscles

Answer 15

Exercise increases the strength of the diaphragm and the external intercostal muscles – the muscles that work to increase airflow during physical activity.