Explosivelyfit Strength Training

Explosivelyfit strength training builds powerful bodies!

Archive for the month “September, 2017”

260917 Recovering from an exercise session

260917 Recovering from an exercise session

Exercise is a way of life for many people; they stay active longer into their lives while remaining mentally and physically sharper than their non-exercising friends. An active lifestyle requires a firm dedication to living a healthy life through good food choices and exercise. Sometimes being active brings with it a few aches and pains.

There are moments though when, especially after a particularly hard training session, soreness may occur. Even though this may be a cause for concern, there are strategies that may be used to relieve some of this discomfort.

Use a cool down after your session is completed. These few minutes of less vigorous activity help your body to return to its pre-exercise status by lowering your breathing, heart rate, and temperature back to near normal numbers. This time aids in the recovery of the muscles and cardiovascular systems.

Static stretching after the initial cool down gives the muscles a chance to relax and gives you a moment or two to improve your flexibility at the same time. Stretches are particularly effective now because the muscles, tendons and ligaments are all warm and flexible; just what is necessary to be productive.

Athletes generally weigh themselves before and after training sessions. This is to ensure they are staying properly hydrated. A recreational athlete might consider doing the same for the same reasons because a loss of fluids causes a loss of mental and physical sharpness. The rule of thumb is a pint a pound. Therefore, for every pound you lose exercising you need to drink at least 16 ounces. The exception to this is for an extreme endurance athlete or the salty sweater (1), not only is water important but so are the electrolytes.

Give your muscles the nutrients necessary to repair themselves after the session. Low fat chocolate milk is ideal in this situation because it has a good balance of carbohydrates and protein in each pint. Drinking one of these within ten to fifteen minutes pushes the glycogen back into your muscles and this helps them recover faster meaning a quicker return to your favorite activity.

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190917 Special strength and the athlete

190917 Special strength and the athlete

We all know that not everyone is born with the same capabilities to display awesome strength. It’s a fact of life that some of us just don’t have the right combinations of fast twitch to slow twitch fibers. However, each of us can make a difference in our strength levels through proper training schedules. How we go about setting up these training regimens is the topic of this article.

There are minute differences in each muscle fiber type, and these differences make up the ability to run long distances or to lift heavy weights. Some are nearly all fast twitch with nary a hint of a slow twitch characteristic in them. At the other end of the spectrum are the slow twitch fibers with an amazing ability to keep on keeping on. Somewhere in the middle lay the in-between fibers the type two ‘a’ and ‘b’. Not quite all out fast twitch and not fully slow twitch either.

Determining the precise ratio of fast to slow twitch fibers is in the realm of the scientists but a few easy to follow tests may give an astute coach a clue as to the direction the training program would realistically follow. Dr. Fred Hatfield, also known as Dr. Squat, came up with a useful gauge for program planning based on the individuals’ fiber makeup. Here’s the test.

Determine the one repetition maximum, without equipment, in the lifts of your choice. Now take eighty percent of that one rep max. Do as many repetitions as possible with this weight. If you are able to do four to six repetitions, and no more with good form, then you are more than likely genetically gifted with a larger amount of type two fibers-the fibers that produce high force but wear out quickly due to their lack of endurance. These fibers operate within the rapidly consumed ATP/CP energy sphere. They fatigue easily, have fewer mitochondria and few capillaries supplying them with fuel.

If on the other hand you are able to do more than fifteen then you probably, have an abundance of type one fibers. These contain a greater percentage of mitochondria, a higher aerobic enzyme capacity and much more dense capillary concentrations. They allow you to go longer but the force output possibilities are lower.

In the middle of these two extreme rep ranges, we have the seven to fourteen ranges. These individuals will have predominance of in-between fibers. Not that many fast twitch and not that many slow twitch fibers.

So what do you do with this information once you’ve found it out? If you know your trainee is a fast twitch sort of person then design the program around this aspect. Keep the reps low and the sets higher. Two to six reps for ten to four sets respectively. Keep in mind that performing four sets of six reps will be physiologically harder on the system than doing twelve sets of two reps.

If they lean more toward the slow twitch end of the continuum then have them doing higher repetitions and fewer sets.

Now that you have a brief idea of the direction you will be going with your training plans, don’t forget to add in a few higher and intermediate reps and sets schedules for those who have the majority of fast twitch fibers. Take advantage of your trainees’ strong points but don’t overly neglect the rest of the points either.

120917 Engram development; the vital component to success

120917 Engram development; the vital component to success

Exercise technique is something most professional trainers preach. But does anyone ever wonder why? After all it is common knowledge that more weight can often times be lifted if it’s ‘cheated’ up, and more reps can be performed if some of them are ‘cheated’ at the end of the set. So what is the big deal about technical proficiency? The big deal is this: ability, longevity, and injury free movements result from learning and practicing good habits.

Instructing and practicing proper form in all aspects of exercise will enhance an individual’s ability in the long term. Technically correct exercise movement patterns decrease the risk of injury due to poor body mechanics, and improper muscle substitutions.

‘Practice makes perfect’ only if it is truly perfect, consistently, time after time. With proper instructions from the coach/trainer, the activity should become more accurate as the athlete makes the adjustments in form. The effort used to complete the movement tends to decrease and there is “less chance of overflow to the wrong muscles”(1) in the process. However, this pattern must be repeated many times to establish the neuromuscular pathways.

A technically correct and repetitive exercise movement effectively develops a pattern of movement called an ‘Engram’. By definition, “an Engram is an effect or performance that is imposed upon the Central Nervous System through repetition.”(2) The advantage of developing these pathways translates into the activity becoming an automatic unconscious process.

Exercising under a heavy load without having to think about ‘how to lift’ allows the subconscious to take over when the going gets rough. The athlete no longer has to think where their feet are placed, how to begin the move, when to breathe, which muscles to tighten and which ones to loosen in order to make the lift.

It is automatic IF the Engram has been previously developed.

(1) Therapeutic Exercise for Athletic Injuries Houglum. P.A. Human Kinetics 2001

(2) Ibid

050917 More benefits of exercise

050917 More benefits of exercise

Exercise has been cited as being beneficial for avoiding, lessening, and mitigating a vast array of diseases in the past. Now, new research is confirming even more of these exercise related benefits for those who choose to follow this path to better health.

According to a recent report from Duke University, working out directly affects your heart. You may reduce your risk of developing heart disease up to 25% by doing 750 minutes of high intense minutes each week. By doing 300 minutes of intense exercise you lower your risk of heart disease by 20% and exercising 150 minutes per week lowers the risk by 14%.

Despite scientific research and the medical expert’s advising exercise to manage the pain of arthritis, up to 90% of those with arthritis fail to meet even the standards of 150 minutes of exercise per week. Of this 90%, nearly half get no exercise at all. They are inactive.

Boost your memory with movement.

Aerobic exercise pushes the rate of circulation up and this helps to increase the flow of oxygen rich blood into your brain. A study of almost 300 older people found that of those who walked at least 72 blocks, about 4 miles and 880.0 yards, each week had more gray matter in their brain than those who did not walk or exercise each week. Those who were walking each day cut their risk in half of developing memory problems.

Achieve a calmer state of mind with exercise

Regular aerobic exercise tends to reduce an individual’s level of stress hormones, and decreases the amount of fluctuations in heart rate and blood pressure when under duress. Some of the recommended ways of aerobically exercising are walking, running, swimming, biking, or any other activity that keeps your heart rate up and within the target range for up to 20-30 minutes a day.

Equally effective is resistance circuit training. This method involves doing a series of exercises without stopping for 3-6 times around a circuit-thus the name circuit training. It is most effective with the large muscle groups such as legs, chest, and back. As an example, when doing an intense lower body circuit, the series could look like this: do each exercise for 1 minute. Do this 3-6 times, if you are able.

  • Skip rope
    • Squats
    • Skip rope
    • Calve raises
    • Skip rope
    • Dead lifts
    • Skip rope

Obviously, before beginning any of these exercise suggestions consult with your doctor.

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