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==='''Design to resist shearing'''===
 
==='''Design to resist shearing'''===
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[[File:QMFig 3.3.jpg|thumb|'''Fig. 3.3  Attachments of tendons to bone''']]
    
Shearing forces are applied to bones at the sites of insertion of tendons and ligaments.  Resistance to these forces is enhanced by localised thickenings of the bone.  Tubercles such as the ischial tuberosity and the greater trochanter of the femur (Fig. 2.8), which serve to increase the torque of muscles acting about a joint, are large because the shearing stress is great.  Couples acting in planes at right angles to the length of a bone result in twisting, which also shears the material.  The shearing stress is, as for bending, greatest at the outside, and zero along the central axis of the bone.  Hollow shafts give strength with lightness in twisting as well as in bending, and again, such stress is greatest midway along the length of the bone.
 
Shearing forces are applied to bones at the sites of insertion of tendons and ligaments.  Resistance to these forces is enhanced by localised thickenings of the bone.  Tubercles such as the ischial tuberosity and the greater trochanter of the femur (Fig. 2.8), which serve to increase the torque of muscles acting about a joint, are large because the shearing stress is great.  Couples acting in planes at right angles to the length of a bone result in twisting, which also shears the material.  The shearing stress is, as for bending, greatest at the outside, and zero along the central axis of the bone.  Hollow shafts give strength with lightness in twisting as well as in bending, and again, such stress is greatest midway along the length of the bone.
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:::::'''Fig.3.3 Attachments of tendons to bone'''   
 
:::::'''Fig.3.3 Attachments of tendons to bone'''   
:::::The direction of the tensile force in the tendon of origin of the biceps brachii muscle of the horse does not change with changing angulation of the shoulder joint, because the tendon bends around the intertuberal groove of the humerus (A).  Were this not so, the stress would be concentrated on one part of the junction of bone and tendon (B, arrowed).  
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:::::The direction of the tensile force in the tendon of origin of the biceps brachii muscle of the horse does not change with changing angulation of the shoulder joint, because the tendon bends around the intertuberal groove of the humerus (A).  Were this not so, the stress would be concentrated on one part of the junction of bone and tendon (B, arrowed).
 
      
==='''The junction of bones with ligaments and tendons'''===
 
==='''The junction of bones with ligaments and tendons'''===

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