The 6 Scientific Rules The Lead To Fitness

Six Fitness Rules Elite Athletes Use To Get Fit

The 6 Rules of Fitness
The 6 Rules of Fitness.

In the study of exercise science, there are several universally accepted scientific exercise training principles that must be followed in order to get the most from exercise programs and improve both physical fitness and sports performance.

These rules apply to all athletes from beginners to elite competitors. Of course, you don't need to follow every one of them all the time, but if you want to get in better shape, improve your sports performance, get better at a particular fitness discipline, or avoid stalling and back-slides, these fundamental rules are the hidden force behind your ability to change your fitness level.  

To design an optimal exercise program, workout or training schedule, a coach or athlete should adhere to the following six fundamental principles of exercise science.

Exercise Science Rule 1 - The Principle Of Individual Differences

Individual Difference in Fitness
Individual Difference in Fitness.

1. The Principle of Individual Differences

The principle of individual differences simple means that, because we all are unique individuals, we will all have a slightly different response to an exercise program. This is another way of saying that "one size does not fit all" when it comes to exercise. Well-designed exercise programs should be based on our individual differences and responses to exercise.

Some of these differences have to do with body size and shape, genetics, past experience, chronic conditions, injuries and even gender. For example, women generally need more recovery time than men, and older athletes generally need more recovery time than younger athletes.

With this in mind, you may or may not want to follow an "off the shelf" exercise program, DVD or class and may find it helpful to work with a coach or personal trainer to develop a customized exercise program. Some things to consider when creating your own exercise program include the next batch of exercise science principles.

Exercise Science Rule 2 - The Principle of Overload

overhead barbell squat
overhead barbell squat.

2. The Principle of Overload

The exercise science principle of overload states that a greater than normal stress or load on the body is required for training adaptation to take place. What this means is that in order to improve our fitness, strength or endurance, we need to increase the workload accordingly.

In order for a muscle (including the heart) to increase strength, it must be gradually stressed by working against a load greater than it is accustomed to. To increase endurance, muscles must work for a longer period of time than they are accustomed to or at a higher intensity level. This could mean lifting more weight or doing high intensity interval training workouts.

Exercise Science Rule 3 - The Principle of Progression

Progression for fitness
Progression for fitness.

3. The Principle of Progression

The principle of progression implies that there is an optimal level of overload that should be achieved, and an optimal time frame for this overload to occur. A gradual and systematic increase of the workload over a period of time will result in improvements in fitness without risk of injury. If overload occurs too slowly, improvement is unlikely, but overload that is increased too rapidly may result in injury or muscle damage. For example, the weekend athlete who exercises vigorously only on weekends violates the principle of progression and most likely will not see obvious fitness gains.

The Principle of Progression also stresses the need for proper rest and recovery. Continual stress on the body and constant overload will result in exhaustion and injury. You should not train hard all the time, as you'll risk overtraining and a decrease in fitness.

Exercise Science Rule 4 - The Principle of Adaptation

Principle of Adaptation
Principle of Adaptation. Christoph Wilhelm / Getty Images

4. The Principle of Adaptation

Adaptation refers to the body's ability to adjust to increased or decreased physical demands. It is also one way we learn to coordinate muscle movement and develop sports-specific skills, such as batting, swimming freestyle or shooting free throws. Repeatedly practicing a skill or activity makes it second-nature and easier to perform. Adaptation explains why beginning exercisers are often sore after starting a new routine, but after doing the same exercise for weeks and months they have little, if any, muscle soreness.

Additionally, it makes an athlete very efficient and allows him to expend less energy doing the same movements. This reinforces the need to vary a workout routine if you want to see continued improvement.

Exercise Science Rule 5 - The Principle of Use/Disuse

Use It or Lose It
Use It or Lose It.

5. The Principle of Use/Disuse

The Principle of Use/Disuse implies that when it comes to fitness, you do actually  "use it or lose it."  This simply means that your muscles hypertrophy with use and atrophy with disuse. This also explains why we decondition, or lose fitness, when we stop exercise.

Exercise Science Rule 6 -The Principle of Specificity

Principle of Specificity
Principle of Specificity.

6. The Principle of Specificity

We've all heard the phrase, "practice makes perfect." Well, this is the principle of specificity in action. This principle simply states that exercising a certain body part or component of the body primarily develops that part. The Principle of Specificity implies that, to become better at a particular exercise or skill, you must perform that exercise or skill. A runner should train by running, a swimmer by swimming and a cyclist by cycling. While it's helpful to have a good base of fitness and to do general conditioning routines, if you want to be better at your sport, you need to train specifically for that sport.

Many coaches and trainers will add additional guidelines and principles to this list. However, these six basics are the cornerstones of all other effective training methods. These cover all major aspects of a solid foundation of athletic training.

Designing a program that adheres to all of these guidelines can be challenging, so it's not a surprise that many athletes turn to a coach or trainer for help with the details so they can focus on the workouts. One common training method is Periodization Training that it build upon specific training phases throughout the year.


Wilmore, J.H. and Costill, D.L. Physiology of Sport and Exercise: 3rd Edition. 2005. Human Kinetics Publishing.

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