Muscular Strength and Endurance
net muscle actions
There are many types of strength that an individual may need in order to improve performance and/or function. In order to understand the benefits of exercise, we must first define and describe the different types of strength.
concentric
Neural Factors Influencing Strength Gains Exercise elicits a training stimulus. One effect is structural (e.g. hypertrophy of muscles and connective tissues) while the other is functional. Functional affects of training will be seen as both increased intramuscular coordination (within a muscle) and increased intermuscular (within a group of muscles). During any movement, certain muscles will be activated as a primary, secondary, stabilizer, and/or neutralizer, to coincide with facilitation (actual recruitment or disinhibition) or inhibition (shut off). This sequence of events takes place during all movements, especially during the initial stages of training (motor learning/motor ability stage).
eccentric
isometric
Possible hyperplasia leading to hypertrophy (increase in muscle cell number - rare) Increased ATP, CP and glycogen stores (energy stores) Increase in size of the left and right ventricles of the heart (wall thickness and chamber diameter)
Definition: Where a muscle neither lengthens nor shortens against a load (no net joint movement). A cocontraction of agonist and antagonist muscles. §-Ex: Holding the elbow still at 90˚ in a dumbbell bicep curl
Increased strength due to increased motor unit recruitment (i.e. able to contract a greater number of motor units simultaneously)
Possible conversion of Type 1 to Type II fibers
Definition: Lengthening of a muscle fiber against a load§ -“Lowers” the load §-Ex: Downward phase of a dumbbell bicep curl
adaptations to strength training Increased strength due to muscle hypertrophy (increase in muscle cell size)
Definition: Shortening of a muscle fiber against a load “Raises” the load “Accelerates” the load Ex: Upward phase of a dumbbell biceps curl
isotonic
Definition: Exercise where a concentric and/or eccentric action is generated to move a load through a range of motion where the force on the muscle does not change
isokinetic
Definition: Exercise on a specialized piece of equipment where the muscle action speed is constant
types of strength absolute strength
The maximum amount of force an individual can produce in a one repetition maximum lift (one rep max or 1RM), irrespective of body weight and time of force development. This type of strength is particularly important for shot putters and football linemen where bodyweight has a high correlation to an increase in sports performance.
relative strength
The maximum force that muscles can generate in relation to one’s body weight. This type of strength is important for individuals who have to move their entire body weight, such as a gymnast. This type of strength is also important for individuals who want to get stronger, but don’t necessarily want to gain mass, as well as an important strength stage to fulfill prior to mass-building.
strength endurance (muscular endurance)
The ability to sustain muscular contractions for a long duration of time. This type of strength is important for mid-level endurance events such as cycling or rowing.
power
The physics definition of power is Force x Distance Time. In other words, power measures how quickly work is performed (Work = Force x Distance). The different ways to increase power are to increase the Force (ex: weight), increase the Resisted Distance (ex: up if force is due to gravity) or to decrease the Time (ex: move faster). The factor most influential in increasing power is decreasing the time to perform a movement or exercise.
What are the various types of strength? Be able to identify exercises which emphasize a particular type of strength. What factors contribute to muscle soreness?
Hypertrophy
Intermuscular
Intramuscular
This has been a small sample of what you will learn when you enroll on the NESTA Personal Fitness Trainer Certification.