People frequently write or talk about the physiological differences between muscle fibers (fast twitch vs. slow twitch, oxidative capacity, etc.), but this information is usually not very useful to the typical health and fitness enthusiast. Some understanding of how your muscles work is definitely important, but most people do not need to know all in-depth physiology. Instead, I believe that the muscles provide more practical information than the muscle physiology.
When looking at the functional differences between muscles you can certainly go into great depth and examine how many different muscles function at every single joint, but in the end, muscles generally fall into two different functional categories: prime movers and stabilizers. Prime movers are the muscles that actively create movement, while stabilizers provide balance and support to your body Moving Company San Diego.
Prime movers are typically larger muscles in your body and include muscle groups such as your quads and hamstrings (upper thigh), pecs, lats (back), biceps and triceps (arms), etc. They connect to your bones (by tendons) and create movement around a joint. For example, your bicep connects your upper arm to your lower arm (forearm), crossing the elbow joint, and when the bicep contracts it brings your forearm closer to your upper arm. Since the bicep compression creates this movement, it is considered a prime mover.
Stabilizers, as their name implies, have more to do with stabilizing your body Stabilizers are small muscles and in many cases they are not really even visible, because they are either small or deep under your surface muscles. These muscles help to keep your bones, joints, and muscles correct aligned both during movement and while you are stationary.
Stabilizer muscles are also important for maintaining good posture throughout your life. For example, the stabilizer muscles in your mid and upper back If those muscles are too weak or your chest and front shoulder muscles become proportionally too strong or tight, your shoulders will begin to round forward If the stabilizer muscles are not stronged to the point where they can reverse this change, then the shoulder rounding will progress and your posture will become worse over time, leading to additional problems
Prime movers and stabilizers both play valuable roles in your body and any well-rounded training program will include exercises or workouts to improve both types of muscles. It is also important to note that since prime movers and stabilizers have different functions and muscular demands, they should be trained differently. Unfortunately, a lot of people try to train stabilizers as if they are prime movers and possibly an ever greater number of people do not realize stabilizers need to be trained at all.
Really this is not a surprise, because your body looks and rarely spend time explaining how training is your body functions as a way to improve. It is a common assumption that training will always improve the way your body functions, but this is only partially true. A well-balanced program will improve, but many programs are imbalanced or ignored.
Improving stabilizer muscles is something that is often left out of the average training program. Since stabilizers are so small, training usually affects them, so they do not get too much attention and they are completely ignored. It is very tempting to only train prime movers, because they are responsible for most calorie burning and physical changes. While the majority of your training can be spent on prime movers, at least some stabilization training should be included as well.
While resistance training (lifting weights, using exercise bands, etc.), prime movers are usually trained by performing sets of exercises where each set contains typically 3 and 15 reps, based on your training goals. In general, lower reps and higher weight results in more strength gains, while higher reps and lower weight results in more local muscular endurance. However, in both cases, the muscles are trained for a certain number of reps, usually until they become fatigued, and then there is a period of rest.
This type of training is effective, because prime movers usually only work for shorter durations (but the exception of long endurance events), but stabilizers often have to The difference is that stabilizers muscles are designed to produce.