3.3 Performance Appraisal Fluid Mechanics 3: Hydrodynamics - Resistance.

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Presentation transcript:

3.3 Performance Appraisal Fluid Mechanics 3: Hydrodynamics - Resistance

Resistance “the forces acting against the swimmer in their efforts to propel themselves through the water.” Water offers a far higher resistance to objects moving through it than does air. Because of this, it is very important for a swimmer to obtain and maintain a streamlined position when performing a stroke. Resistance or the slowing down effect of the water is also known as ‘drag’. There are three major types of drag: Surface drag Form drag Wave drag

Surface Drag (or skin friction resistance) When swimming, the water must move around your body and limbs A thin layer of water next to the body actually sticks to it, and moves with it causing up to 30% resistance. The overall effect of this is a considerable drag on the forward progress of the swimmer. How to overcome?

Form Drag (or Tail Suction Resistance, or Eddy Drag) Depends on the size, shape and speed of the swimmer When the irregular shaped human body is propelled through the water, the flow lines don’t remain smooth. Instead they are deflected and break up into a number of whirls creating a great deal of turbulence

Form Drag (or Tail Suction Resistance, or Eddy Drag) Depends on the size, shape and speed of the swimmer When the irregular shaped human body is propelled through the water, the flow lines don’t remain smooth. Instead they are deflected and break up into a number of whirls creating a great deal of turbulence This type of resistance is very costly in terms of energy output The greater the frontal area hitting the water, the greater the eddy resistance

Where will form drag feature most in your swimming performance? How can you minimise its effects?

Wave Drag (or Frontal Resistance) Caused by waves developing on the water’s surface in the form of a bow wave. Determined by the amount of surface area exposed to the direction of forward movement. Swimmers must maintain a swimming position that is as streamlined as possible – i.e. present as small a surface area as possible to the water Position of head is important. If too high, wave drag increases

Applying Biomechanical Principles in Swimming Newton’s first law (The law of inertia) “An object at rest will remain at rest unless acted on by an unbalanced force. An object in motion continues in motion with the same speed and in the same direction unless acted upon by an unbalanced force” A constant application of force must be applied to swim at a uniform speed. With swimming, the resistance to movement is so great that the body almost immediately stops when propulsion stops. Breaststroke, which involves a glide, uses momentum but if the glide is held too long, resistance overcomes the moving body and it comes to rest It then requires excess energy to regain the momentum

Applying Biomechanical Principles in Swimming Newton’s second law “Acceleration is produced when a force acts on a mass. The greater the mass (of the object being accelerated) the greater the amount of force needed (to accelerate the object)” A swimmer accelerates forward by increasing their stroke rate An even application of propulsion is more efficient in propelling a body forward than a fluctuating force If a swimmer accelerates and decelerates in a stop-and-go manner, much of the force that could be used to overcome water resistance will be lost in overcoming inertia

Student Task Explain, in detail, the effects resistance had on your initial swimming performance.