Презентация «The mechanics in biomechanics»

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Презентация «The mechanics in biomechanics»

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«The mechanics in biomechanics», слайд 1
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Outline Mechanics and its application to biological systems Forms of motion Levers Balance and cente
Outline Mechanics and its application to biological systems Forms of motion Levers Balance and center of gravity
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How Did It Walk?
How Did It Walk?
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How Did It Walk?
How Did It Walk?
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Mechanics and Biomechanics Mechanics: science that deals with physical energy and forces and their e
Mechanics and Biomechanics Mechanics: science that deals with physical energy and forces and their effect on objects Biomechanics - study of the mechanics as it relates to the functional and …
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«The mechanics in biomechanics», слайд 6
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«The mechanics in biomechanics», слайд 7
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«The mechanics in biomechanics», слайд 8
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«The mechanics in biomechanics», слайд 9
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«The mechanics in biomechanics», слайд 10
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«The mechanics in biomechanics», слайд 11
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«The mechanics in biomechanics», слайд 12
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«The mechanics in biomechanics», слайд 13
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«The mechanics in biomechanics», слайд 14
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The First Class of Levers First class Levers In a first class lever the fulcrum is between the effor
The First Class of Levers First class Levers In a first class lever the fulcrum is between the effort and the resistance. This type of lever can increase the effects of the effort and the speed of a …
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First Class Lever
First Class Lever
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The Second Class of Levers Second class levers Here the resistance is between the fulcrum and the ef
The Second Class of Levers Second class levers Here the resistance is between the fulcrum and the effort. This type of lever is generally thought to increase only the effect of the effort force.
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Second Class Lever
Second Class Lever
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The Third Class of Levers Third class Levers Here the effort is between the fulcrum and the resistan
The Third Class of Levers Third class Levers Here the effort is between the fulcrum and the resistance and can be seen in the. They can increase the body’s ability to move quickly but in terms of …
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Third Class Lever
Third Class Lever
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Human Body Levers Human’s levers are mostly built for speed and range of movement at expense of forc
Human Body Levers Human’s levers are mostly built for speed and range of movement at expense of force Thus, short force arms and long resistance arms require great muscular strength for movement …
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Example 1. How much force (in kg) needs to be applied to move 45 kg when the RA is 0. 25 m and the E
Example 1. How much force (in kg) needs to be applied to move 45 kg when the RA is 0. 25 m and the EA is 0. 05 meters? Use the formula FE x EA = FR x RA Note: kgs are not units of force, but …
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Example FE x 0. 05 meters = 45 kg x 0. 25 meters FE x 0. 05 = 11. 25 kg FE = 225 Kg
Example FE x 0. 05 meters = 45 kg x 0. 25 meters FE x 0. 05 = 11. 25 kg FE = 225 Kg
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Lever Length Where is the velocity or speed the greatest; at A’ or B’? How can this principle be app
Lever Length Where is the velocity or speed the greatest; at A’ or B’? How can this principle be applied to tennis?
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Lever Length A longer lever increases the speed at the end of the racquet unless the extra weight is
Lever Length A longer lever increases the speed at the end of the racquet unless the extra weight is too great. Then the speed may actually be slower.
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Stability Center of gravity (CG): Point at which all parts of a body are equally balanced Base of su
Stability Center of gravity (CG): Point at which all parts of a body are equally balanced Base of support (BOS): Area within an object’s point of contact with the ground Line of gravity (LOG): Direct …
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Center of Gravity
Center of Gravity
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Base of support The BOS area can be changed Larger BOS area is typical for more stable positions In
Base of support The BOS area can be changed Larger BOS area is typical for more stable positions In humans, wide BOS is usually accompanied by low CG
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Line of Gravity The line of gravity is always vertical The LOG must outside the base of support to i
Line of Gravity The line of gravity is always vertical The LOG must outside the base of support to initiate or continue movement The further away the LOG from the BOS, the greater the tendency to …
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Stability Someone is more __________when they have a _______centre of _______, a ______ base of ____
Stability Someone is more __________when they have a _______centre of _______, a ______ base of __________ and a line of gravity that falls _______the body.
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Advantages/Disadvantages to Bipedal Locomotion Disadvantages Loss of speed Loss of agility Loss of s
Advantages/Disadvantages to Bipedal Locomotion Disadvantages Loss of speed Loss of agility Loss of stability Advantages Carry food Carry tools Increased ability to nurture/protect offspring
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Interesting Fact: T Rex Arms How much could T Rex lift with its arm? (50x6=300lbs 136kg) ?
Interesting Fact: T Rex Arms How much could T Rex lift with its arm? (50x6=300lbs 136kg) ?
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«The mechanics in biomechanics», слайд 33
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«The mechanics in biomechanics», слайд 34
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«The mechanics in biomechanics», слайд 35


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