Download The Dancer in Training

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Myokine wikipedia , lookup

Anatomical terminology wikipedia , lookup

Exercise physiology wikipedia , lookup

Transcript
The Dancer in Training
Stamina
Homework
Create a 6 week training programme for a
dancer that will improve both muscular and
cardiovascular endurance.



The programme is to concentrate on a dancers
ability to jump – therefore, technique should look
at plies, tendu’s, grand battements, developes,
various jumps in 1st, 2nd etc, and jumps that
require a shape.
The programme must also include work in a gym
to improve CV.
Must have a warm up and cool down.
Plan them like this
Session:
Warm up activity:
CV work/dance
technique activities:
Stretches:
Cool Down:
No: 1
What is stamina?
Stamina is ‘staying power’. It is endurance of
either the muscles or the heart and
breathing.
Stamina is crucial for the prevention of injury.
In order to maintain quality performance over
long periods, the heart and lungs need to
deliver oxygen to the blood and muscles as
efficiently as possible.
Once fatigue sets in, mistakes in judgement
or undue stresses on muscles and joints
make continued dancing unsafe.
Stamina can be divided into
two parts:
Muscular Endurance; is the ability of a
muscle to continue to contract over a
period of time.
Cardiorespiratory Endurance; is the
ability to continue aerobic activity over
a period of time. The cardiorespiratory
system includes the heart and lungs.
The Cardiovascular system
This consists of the heart, the blood
and the blood vessels.
Together these enable the transport of
necessary nutrients and gases to and
from the muscles and organs
The blood also carries heat to the skin
for removal by sweating and radiation.
During exercise, changes
occur in the CVS;
An improvement in the condition of the
overall system
An increase in the size/strength of the heart
muscle and the volume of the heart chambers
An increase in aerobic capacity
A lowering of the resting heart rate
A better venous return of waste products
An increase in the volume of blood
An increase in red-blood-cell count
An increase in stroke volume (the amount of
blood pumped at each heart beat)
The heart
Muscular pump about the size of your
fist
The heart sends fresh O2 through the
arteries to the rest of the body
The veins then carry waste products
and CO2 back, to be expelled from the
body.
Fascinating facts: the heart
•Beats at about 70 times per minute (resting rate)
•Pumps blood at a rate of about 5 litres per minute! About 180
million gallons in a lifetime!!!!
Picture of the heart
The heart rate
During exercise the heart rate increases
from its usual resting rate to a
maximum rate which is related to your
age. (220-age = MHR)
When exercise stops it then decreases
in order to maintain circulatory balance.
Target heart rate
Most dance classes do not focus on
cardiorespiratory conditioning (moving
constantly for 15 to 20 mins).
In dance class, it is usual to cross the
floor once, then rest and wait for others
to do so.
This means that aerobic activity is not
continued over a long enough time.
The respiratory system
During exercise, both the heart and the
breathing rate speed up to increase the
supply of O2 to and CO2 away from the
muscle.
When we are huffing and puffing, CO2 is
being expelled more forcefully from the
alveoli in the lungs out of the body.
This removes the CO2 away from the muscles
making an exchange for O2 possible in the
capillaries; and in this way, exercise may
continue.
The ribcage protects the lungs.
Attached to it are the muscles which
control the expansion and contraction
of the thorax cavity.
These are the intercostals, the serratus
group, and the diaphragm.
The lungs have no muscular power of
their own.
The overall level of fitness for any sport or
dance is something specific to that activity.
The cardiorespiratory system does need a
basic level of aerobic fitness, whatever the
activity.
An increase in the delivery of O2 to the
muscles by the heart, blood vessels and lungs
is improved by slow and steady exercises,
such as cycling or swimming, which gradually
increase in intensity.
Aerobic activity
Activity that uses oxygen supplied to
the muscles via the cardiovascular
system.
Muscles using O2 to supply energy
Uses the larger muscle groups over an
extended period of time.
The muscles are supplied with O2,
which is steadily and continuously
replenished.
Benefits of aerobic fitness
Increase in muscular
endurance/stamina
Enables dancer to sustain quality of
mvt/perf for longer period of time
Recovery time shorter therefore
train longer
Muscles have a greater capacity to
absorb O2
Muscles can work longer without
tiring – without build up of lactic
acid, resulting in cramp
Increase in cardio
endurance/stamina
Enables dancer to work for longer
periods without being out of breath
Dancer can take on more
demanding roles
General improvement in the
condition of the whole CV system
A fit dancer will be able to perform
a wider range of rep
Increase in red blood cell counts
which carry O2
More efficient delivery of O2 to
muscles allows dancer to sustain
high level of perf for longer period
of time before fatigue sets in.
Important in injury prevention.
Anaerobic activity
Activity that requires energy to be
produced without using energy
Muscles continue to work without being
supplied with O2
Intense activity and requires energy
production without using O2.
Aerobic exercise improves long term
endurance
Anaerobic exercise improves short term
endurance
In dance do we use aerobic or
anaerobic
Dance tends to use mostly anaerobic activity
– during technique class, performing
repetitive movements will improve muscular
endurance.
However some choreographers may also
place vigorous demands on the dancer’s
aerobic endurance. This will result in
progressive overload on the muscles and
cardiovascular system.
Preconditioning/preventative training for
building up the stamina of the CVS is
therefore advisable.
In the event that the dance class is not
providing sufficient training in this
respect, the dancer should once again
invest in some supplementary training.
Such as; jogging, cycling, swimming
This activity can be developed through
progressive overload and the fitt
principle.

Cycling for 15 minutes, next week do same
route but go twice. In third week do
same route but quicker. Then would
make route longer and include a hill. I
would time myself so that I could try to go
faster as the weeks went on.
Recovery Periods
Recovery periods are needed after anaerobic
exercise so that the O2 dept is paid back and
a normal chemical balance is resumed.
Often after such exercise, the muscles may
feel sore or stiff. This may be caused by mild
inflammation in the muscle fibres, which
often occur after new exercises or when
adapting to new techniques.
This condition reduces flexibility and causes
general discomfort when dancing. Therefore
warming up and cooling down is important.
In conclusion
A healthy, well conditioned CVS will provide
the dancer with sufficient endurance to
maintain safe, expressive and efficient
movement throughout technique classes,
rehearsals and performances.
This system, works only in tandem with an
equally well conditioned respiratory system.