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3. skeletal system (bones and joints) skeletal (voluntary) muscle ligaments (connect bones to bones) tendons (connect muscles to bones) cartilage ( shock absorbing gel between joints). The musculoskeletal system consists of: © Cengage Learning Australia 2011 Remember:

4. Anterior view of superficial muscles © Cengage Learning Australia 2011

5. Posterior view of superficial muscles © Cengage Learning Australia 2011

6. Types of muscles Skeletal Muscles Voluntary muscles Attached to bones E.g. Biceps, Quadriceps Smooth Muscles Involuntary E.g. Found in Blood vessels and the small intestines Cardiac Muscles Involuntary E.g. Muscles of the heart © Cengage Learning Australia 2011

7. How muscles work A muscle origin – where a muscle attaches to a bone medially. A muscle insertion – where a muscle attaches to a bone more laterally. Muscles work in pairs or groups. The prime mover is the agonist (E.g. Bicep) whilst the opposite muscle is the antagonist (E.g. Tricep) © Cengage Learning Australia 2011

8. How muscles work Reciprocal inhibition occurs when one muscle contracts and its opposite relaxes, to allow movements to occur. Muscles that stabilise a joint are also known as fixator muscles (previously stabilisers) because they provide additional support at the origin to allow more forceful contractions to occur. E.g. During elbow flexion the trapezius contracts to stabilise the scapula and provide a strong, rigid base for the bicep to pull on. © Cengage Learning Australia 2011

9. Muscle fibre arrangement © Cengage Learning Australia 2011

10. Microscopic structure of muscles © Cengage Learning Australia 2011

11. Nervous control of muscular contractions Motor neurons convey nerve impulses form the brain to muscles A motor neuron and the fibres it controls/stimulates are known as the motor unit Sensory neurons convey nerve impulses from muscles, organs and cells to the brain © Cengage Learning Australia 2011

12. The all or nothing principle states: It is not until an electrical threshold is surpassed that all of the fibres linked to a motor unit will fire together and maximally. Gross movements requiring major muscle involvement require more motor units than precise/ fine movements. Fibres will be recruited according to the activity demand and this is known as preferential recruitment. © Cengage Learning Australia 2011

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14. Types of contraction There are basically three types of muscular contraction, classified by the movement they cause. These are listed below in order of occurrence in everyday activity, from most common to least common: isotonic (concentric and eccentric) isometric isokinetic © Cengage Learning Australia 2011

15. How muscles contract © Cengage Learning Australia 2011

16. Types of contraction lsotonic contraction Occurs whenever the muscle length changes through a range of motion or action. When a constant load (weight) is being moved, differences exist in the amount of force applied at various joint angles. Isometric contraction Occur when tension is developed but no change results in the length of the muscle. Isometric contractions hence involve little, if any, change in muscle length while tension is developed. lsokinetic contraction Tension developed is maximal throughout the entire range of motion and is common on hydraulic fitness equipment. The amount of force applied by the machine always equals the amount of force applied by the muscle. © Cengage Learning Australia 2011

17. Fast & slow twitch fibres Muscles are made up of two different types of fibres: Red, type I, slow-twitch fibres (ST), best suited to aerobic, endurance work such as triathlons. White, type II, fast-twitch fibres (FT), best suited to short- duration, high intensity anaerobic work, for example the bursts of power and speed required to sprint. © Cengage Learning Australia 2011

18. Contraction Speed V FastFastSlow Fatigue resistance V LowMediumLow Fast & slow twitch fibres CharacteristicFast Twitch BFast Twitch ASlow Twitch ColourRedRed/WhiteWhite Oxidative ability V LowMediumHigh MyoglobinV LowMediumHigh Glycolytic ability V HighMediumLow Capillary density LowMediumHigh PC StoresV HighMediumLow DiameterLargeMediumSmall