ch 2 biomechanics of resistance exercise

Question 1

study of the mechanisms through which the musculoskeletal components interact to create movement

Answer 1

biomechanics

Question 2

muscle origin

Answer 2

proximal attachment-toward the center of the body less mobile (anchor)

Question 3

muscle insertion

Answer 3

distal attachment more mobile

Question 4

type of attachment where muscle is directly affixed to the bone (usually at proximal attachment over a wide area)

Answer 4

fleshy attachment

Question 5

attachments that are continuous with both the muscle sheaths and CT surrounding the bone

Answer 5

fibrous attachments

Question 6

types of fibrous attachments

Answer 6

tendons, ligaments

Question 7

the muscle most directly involved in bringing about movement

Answer 7

prime mover agonist

Question 8

a muscle that can slow or stop the movement of an agonist is called…

Answer 8

antagonist

Question 9

muscles that assist in joint stabilization and in breaking at the end of a rapid movement

Answer 9

antagonist

Question 10

a muscle that assists indirectly in a movement

Answer 10

synergist

Question 11

muscles that don’t act through levers

Answer 11

face muscles, tongue, heart

Question 12

1st class lever def and draw

Answer 12

a lever for which the muscle force and resistive force act on opposite sides of the fulcrum

Question 13

fulcrum

Answer 13

the pivot point of a lever

Question 14

lever

Answer 14

a rigid or semirigid body that, when subjected to a force whose line of action does not pass through its pivot point, exerts force on any object impeding its tendancy to rotate

Question 15

mechanical advantage

Answer 15

the ratio of moment arm through which an applied force acts to that through which a resistive force acts

represented as a ratio of greater than 1.0 (allows the applied muscle force to be less than the resistive force to produce an equal amount of torque

Question 16

mechanical advantage < 1.0

Answer 16

one must apply greater muscle force than the amount of resistive force present (creating a mechanica disadvantage)

Question 17

moment arm (torque arm, force arm, lever arm)

Answer 17

the perpendicular distance from the line of action of the force to the fulcrum

Question 18

muscle force

Answer 18

force generated by biomechanical activity or the stretching of noncontractile tissue, that tends to draw opposite ends of a muscle toward eachother

Question 19

resistive force

Answer 19

force generated by a source external to the body (gravity,enertia,friction) that acts contrary to muscle force

Question 20

second class lever def and draw

Answer 20

a lever for which the muscle force and resistive force act on the same side of the fulcrum with the muscle force acting on a longer fulcrum than that of the resistive force

Question 21

example of a first class lever muscle

Answer 21

triceps

Question 22

example of 2nd class lever muscle

Answer 22

calf muscles

Question 23

the greater the mechanical advantage, the

Answer 23

less force needed to resist external forces

Question 24

third class lever def and draw

Answer 24

a lever for which the muscle force and resistive force act on the same side of the fulcrum, with the muscle force acting through a moment arm shorter than that of the resistive force

Question 25

torque (moment)

Answer 25

the degree to which a force tends to rotate an object about a specific fulcrum

the magnitude of a force times the length of its moment arm

Question 26

example of a 3rd class lever system in the body

Answer 26

biceps

Question 27

most muscles that rotate the lims about body joints opperate at a mechanical

Answer 27

disadvantage

Question 28

internal muscle forces are much—–than the forces exerted by the body on external objects

Answer 28

greater

Question 29

mechanical advantage changes during real world activities….give an example

Answer 29

biceps curle…the resistive moment arm changes throughout the movement

Question 30

tendon insertion and mechanical advantage

Answer 30

a person whose tendons are inserted on the bone farther from the joint center shoud be able to lift heavier weights

Question 31

tendons that insert farther from the joint are stronger, but they also have …

Answer 31

a loss of maximum speed because the muscle has to contract more to make the joint move through a given ROM

Question 32

draw saggital, frontal, and transverse planes

Answer 32

Question 33

important sports movements not usually incorporated into standard resistance training programs

Answer 33

internal/external shoulder rotation (throwing, tennis)

knee flexion (sprinting)

hip flexion (sprinting, kicking)

ankle dorsiflexion (running)

hip ABD, ADD (lateral cutting)

torso rotation (throwing,batting)

neck movements (boxing, wrestling)

Question 34

strength def

Answer 34

the ability to exert force

Question 35

change in velocity per unit time

Answer 35

acceleration

Question 36

force equation

Answer 36

F=MA

Newton’s second law

Question 37

power def

work def

Answer 37

the time rate of doing work

where work is defined as:

the product of the foce exerted on the object and the distance the object moved

Question 38

work equation

Answer 38

work= force x displacement

Question 39

power equation

Answer 39

power= work/time

Question 40

force is measured in

Answer 40

Newtons

Question 41

distance is measured in

Answer 41

meters

Question 42

work is measured in

Answer 42

joules, newton-meters, or Nm

Question 43

time is measured in

Answer 43

seconds

Question 44

power is measured in

Answer 44

watts

Question 45

when force is exerted on a weight in the direction opposite to the one in which the weight is moving (as when a weight is lowered in a controlled manner), calculated power and work ….

Answer 45

have a negative sign

Question 46

angular displacement

Answer 46

the angle through which an object rotates

Question 47

angular displacement is measured in

Answer 47

radians

Question 48

1 radian (rad) =

Answer 48

180 degrees / pie = 57.3 degrees

Question 49

angular velocity is measured in

Answer 49

radians per second

rad/s

Question 50

equation for rotational work

Answer 50

work= torque x angular displacement

Question 51

Strength can be slow or fast…it is the capacity to exert force at…

Answer 51

any given velocity

Question 52

power is the

Answer 52

mathmatical product of force and velocity, whatever the speed.

Question 53

neural control affects the maximal force output of a muscle by determining…

Answer 53

RECRUITMENT

which and how many motor units are involved in a muscle contraction

RATE CODING

the rate at which motor units are fired

Question 54

RATE CODING

Answer 54

THE RATE AT WHICH MOTOR UNITES ARE FIRED

Question 55

MUSCLE RECRUITMENT

Answer 55

WHICH AND HOW MANY MOTOR UNITES ARE RECRUITED FOR CONTRACTION

Question 56

A FORCE A MUSCLE CAN EXERT IS RELATED TO ITS—-RATHER THAN TO ITS—-

Answer 56

CROSS SECTIONAL AREA RATHAR THAN TO ITS VOLUME

Question 57

PENNATE MUSCLE FIBERS ALIGN

Answer 57

OBLIQUELY WITH THE TENDON

Question 58

ANGLE OF PENNATION

Answer 58

THE ANGLE BETWEEN THE MUSCLE FIBERS AND AN IMAGINARY LINE BETWEEN THE MUSCLES ORIGIN AND INSERTION

Question 59

THE ANGLE OF PENNATION—–AS THE MUSCLE SHORTENS

Answer 59

INCREASES

Question 60

WHEN ARE THE MAXIMAL NUMBER OF CROSS BRIDGE SITES AVAILABLE?

Answer 60

WHEN THE MUSCLE IS AT RESTING LENGTH

Question 61

THE MUSCLE CAN GENERATE ITS GREATEST FORCE AT…

Answer 61

RESTING LENGTH

Question 62

THE FORCE CAPABILITY OF A MUSCLE DECREASES AS…

Answer 62

VELOCITY OF CONTRACTION INCREASES

Question 63

3 TYPES OF MUSCLE ACTION

Answer 63

CONCENTRIC MUSCLE ACTION

ECCENTRIC MUSCLE ACTION

ISOMETRIC MUSCLE ACTION

Question 64

CONCENTRIC MUSCLE ACTION

Answer 64

THE MUSCLE SHORTENS

BIKING AND SWIMMING INVOLVE CONCENTRIC MUSCLE ACTION ALMOST EXCLUSIVELY

Question 65

ECCENTRIC MUSCLE ACTION

Answer 65

THE MUSCLE LENGTHENS BECAUSE CONTRACTILE FORCE IS LESS THAN RESISTIVE FORCE

LOWERING PHASE OF A RESISTANCE EXERCISE

Question 66

ISOMETRIC MUSCLE CONTRACTION

Answer 66

THE MUSCLE LENGTH DOES NOT CHANGE BECAUSE THE CONTRACTILE FORCE IS EQUAL TO THE RESISTIVE FORCE

Question 67

ISOKINETIC TRAINING

Answer 67

SPEED OF MOVEMENT REMAINS CONSTANT

Question 68

SMALLER ATHLETES ARE —- POUND FOR POUND THAN BIGGER ATHLETES

Answer 68

STRONGER

Question 69

CLASSIC FORMULA

Answer 69

COMPARES STRENGTH BETWEEN DIFFERENT WEIGHT CLASSES

LOAD LIFTED / BODY WEIGHT TO THE 2/3 POWER

Question 70

MOST COMMON SOURCES OF RESISTANCE FOR STRENGTH TRAINING EXERCISES

Answer 70

GRAVITY

INERTIA

FRICTION

FLUID RESISTANCE

ELASTICITY

Question 71

GRAVITY

Answer 71

THE DOWNWARD FORCE ON AN OBJECT FROM THE PULL OF GRAVITY

= OBJECT’S MASS X GRAVITY

Question 72

ADVANTAGES OF WEIGHT MACHINES

Answer 72

SAFETY

DESIGN FLEXIBILITY

EASE OF USE

Question 73

ADVANTAGES OF FREE WEIGHTS

Answer 73

WHOLE BODY TRAINING

SIMULATION OF REAL LIFE ACTIVITIES

Question 74

INERTIAL FORCE CAN ACT IN…

Answer 74

ANY DIRECTION

Question 75

INERTIA AND ACCELERATION PATTERN

Answer 75

THE AGNOIST MUSCLES PROVIDE FORCE IN ACCESS OF THE BAR WEIGHT EARLY IN THE MOVEMENT, BUT LESS THAN THE BAR WEIGHT LATE IN THE MOVEMENT

Question 76

BECAUSE OF INERTIA, HEAVIER WEIGHTS CAN BE USED IN…

Answer 76

ACCELERATIVE EXERCISES AS COMPARED TO SLOW EXERCISES

Question 77

ACCELERATION MAKES RESISTANCE PATTERNS..

Answer 77

LESS PREDICTABLE