Article

Muscle performance

Whether you are a student who wants to be fitter, a netballer who wants a faster more powerful throw, a sprinter who wants to win that race or a weightlifter who wants to lift heavier weights, you are trying to make your muscles work better.

Male gymnast balancing horizontally on stationary rings.

Gymnast using core strength

Gymnast demonstrating core strength required for the rings event.

Rights: Roman Stetsyk, 123RF Ltd

There are three major factors that affect how well your muscles perform – strength, power and endurance.

Strength

Muscle strength is also a result of the combination of three factors:

  • Physiological strength, which depends on factors such as muscle size, the cross-sectional area of the muscle and responses to training.

  • Neurological strength, which looks at how weak or how strong the signal is that tells the muscle to contract.

  • Mechanical strength, which refers to a muscle’s pulling force and the way those forces can be changed using bones and joints as levers.

When we talk about the strength or muscles, we are describing the maximum force a muscle can exert. Muscle strength is directly dependant upon the size of the cross-sectional area of muscle, so if after a period of training, you increase your muscle size by 50%, you will also increase the force the muscle can develop by 50%.

For every 1 square centimetre of cross sectional area, muscle fibres can exert a maximum force of approximately 30–40 newtons (the weight of a 3–4 kg mass).

Example: Emily can lift 21 kg (210 newtons force) using muscles that have a cross-sectional area of 6 cm2. Use this formula to work out how many newtons per square centimetre her muscles can pull with:

Emily’s friend Alisha has larger muscles that have a cross-sectional area of 8 cm2. Use this formula to work out what weight Alisha should be able to lift if her muscle tissue is similar to Emily’s:

Power

When muscles contract or stretch in moving a load they do work, and energy is transferred from one form to another. The power of muscles refers to how quickly the muscles can do this work and transfer the energy.

Example: A weightlifter lifts 100 kg up a distance of 1.5 m. 100 kg has a weight force of 1000 newtons. Use this formula to calculate the work done (energy transferred) by the weightlifter:

If the weightlifter lifts the 100 kg explosively and takes only 0.5 seconds to make the lift, use this formula to calculate the power their muscles produce:

Where does the energy come from and where does it go?

The energy for muscle contraction comes from glucose transported by the blood and deposited in muscle tissues. In the weightlifter example, the energy has been transformed to gravitational potential energy. Also, heat energy will be generated in the muscle tissues themselves. This means that the muscles will have transferred even more energy than the amount calculated above.

Athlete showing Stage 1 of the Olympic lift in weightlifting

Stage 1 of the Olympic lift

There are three major factors that affect how well your muscles perform – strength, power and endurance.

Strength describes the maximum force a muscle can exert. The power of muscles refers to how quickly the muscles can do this work and transfer the energy. Muscle endurance refers to how well the muscles can exert and hold maximum force over and over and over again.

Rights: The University of Waikato Te Whare Wānanga o Waikato

Putting the relationships together

There are three different equations that can be simplified to make an even more useful equation:

Because

the formula can be rewritten: power = force × velocity

Sports scientists use this formula to measure the power profiles of particular sets of muscles by measuring both the force of the muscles and the speed with which they are contracting or lengthening. They have found that the greatest power is produced when the load is much less than the maximum load on the muscles.

Research to improve athletic performance

Dr Justin Keogh and post-graduate research student Simon Pearson from the Auckland University of Technology (AUT) describe how their research is used to improve athletic performance. Athletes Richard Patterson and James Dolphin talk about the edge that recent research findings give to their performance.

Rights: The University of Waikato

Endurance

Muscle endurance refers to how well the muscles can exert and hold maximum force over and over and over again.

Activity idea

Measuring grip strength gathers and examines data about wrist strength at different angles.

Measuring the power output of elite athletes analyses bench press force, velocity and load data.

Published: 21 June 2007