Assessment Feedback Sheet

Submitted By babafaniyi
Words: 1310
Pages: 6

Assessment Feedback Sheet

Student Name

Babatunde Faniyi
Unit Name and Number
2 – Sport and Exercise Physiology Credit Value
10

Assignment Code

PHYS4
Issue Date

Due Date

Assessor’s Feedback
Continue overleaf if necessary

Criteria
Possible (Circle)
P
1
P
2
P
3
P
4
P
5
P
6
P
7
P
8
M
1
M
2
M
3
M
4
M
5
M
6
D
1
D
2
D
3
D
4
D
5
Achieved (Tick)

Assessor’s Name
Assessor’s Signature
Date
Ryan Bull

I declare that all of the work submitted is my own
Student’s Name
Student’s Signature
Date
Babatunde Faniyi

19/06/14

Bibliography

Eg. Adams, M et al, Sport Level 3 Book 2 BTEC National (2010), Pearson Education, pages 234-237

BTEC National for sport & exercise sciences page 42

http://www.ptdirect.com/training-design/anatomy-and-physiology/adaptations-to-exercise/chronic-cardiovascular-adaptations-to-exercise

http://www.cdc.gov/nccdphp/sgr/pdf/chap3.pdf

Please complete

Coulsdon College
Centre Number 14342

Aim

Know how the body adapts to long-term exercise.

Scenario

You are coming to the end of your internship with the Sports Academy. Your final article they would like you to produce is on the long term effects of exercise. The students within the academy have been training for 8 weeks on a variety of fitness programmes (both strength and aerobic), you need to outline the adaptations that occur to the body systems.
Tasks

1. Produce a written article that describes and explains the long term effects of exercise on the cardiovascular, respiratory, neuromuscular, energy and skeletal systems (P6, P7 and M4)

You must make references to all of the following points:

Long-term exercise: eg four 30-minute jogging sessions per week for eight weeks, a six-week resistance training programme

Cardiovascular adaptations: cardiac hypertrophy; increase in stroke volume; increase in cardiac output; decrease in resting heart rate; blood volume; capillarisation

Respiratory adaptations: increase in minute ventilation; efficiency of respiratory muscles; increase in resting lung volumes; increase in oxygen diffusion rate

Neuromuscular adaptations: hypertrophy; increase in tendon strength; increased myoglobin stores; increased numbers of mitochondria; increased storage of glycogen and triglycerides; neural pathways

Energy system adaptations: increased anaerobic and aerobic enzymes; increased use of fats as an energy source; higher tolerance to lactic acid

Skeletal adaptations: increased calcium stores; increased tendon strength; increased stretch of ligaments 2. Analyse the long term effects of these 5 systems (D3)

Assessment evidence for this task will come in the form of:
A written article

Date Set:

1st Submission Due Date:
Resubmission Due Date:

A bibliography with a minimum of 3 resources must be included.
Work should be layout in an appropriate format and proof read before submission.
1st submission text should be in black, and changes to the resubmission should be in red.
If you fail to meet the 1st submission deadline, or the work is incomplete you will only get 1 final submission

Test
Result
Miller run
43
Sit and reach
26
Vertical jump
50
Standing jump
2m
Shoulder flexibility
15
1 minute sit up
42
1 minute press up
25

Illinois agility test
17
35m sprint test
5.34
Grip test
43.5
The effect of long term exercise

Long term exercise can be considered when an individual works for around 2 hours a week for a minimum of 8 weeks.
The results from long term exercise are that it helps the individual able to exercise harder, longer or both.

Your body adapts to long term exercise due to different factors:

Cardiovascular
Skeletal
Energy system
Respiratory
Neuromuscular

Cardiovascular Adaptations

The adaptation to the cardiovascular system is the increasing the supply of oxygen to the muscles. The cardiac muscle increases in size, with the thickness of the cardiac walls increasing this is called cardiac hypotrophy.
This also increases the size