In order to prescribe the ideal sets, reps and rests for your clients you must understand the components of fitness these variables relate to. This page provides you with all the clarity you'll need..
A fitness component is simply a way of identifying a certain part of a person’s fitness – essentially you are labelling a subset of changes that you want to occur as a component. For example, if a client wants to be more flexible I’d work on the ‘flexibility’ component of their fitness. Or, if a client wants to get stronger to compete in a power lifting event I’d work on the ‘strength’ component of their fitness.
By having components we can analyse someone’s fitness and then focus on developing an area that will best help them meet their goals. For example if a basketball player wanted to jump higher then as a trainer I’d look at developing explosive jumping power whilst maintaining the other components of their fitness – for example their aerobic fitness and their flexibility. Another example may be a client who wants to lose weight, and has significant muscle wastage and low aerobic fitness. So we might decide to work on the ‘hypertrophy’ and ‘aerobic fitness’ components to rebuild some of the wasted muscle and burn calories at the same time.
The fitness components, their definitions and examples are covered in the following table:
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Speed |
Description The ability to develop and maintain movement as quickly as possible for short durations |
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Examples Sprinting 100 metres, jabbing in boxing, getting to a drop shot in tennis, escaping an unpleasant situation as quickly as possible |
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Power |
Description The ability to produce maximal or near maximal force very quickly |
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Examples Throwing a shot put, a left hook in boxing, serving in tennis, slam dunking in basketball, pushing an offensive personal away |
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Flexibility |
Description The ability to move a muscle/tendon around a set of joints and maintain full range of movement (ROM) at those joints |
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Examples Doing the splits, being able to turn easily when backing a car, reaching wide and low for a volley in tennis, stretching after a gym session |
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Balance/Stability |
Description The ability to maintain the centre of mass over the base of support |
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Examples Not drifting during a jump shot in basketball, not falling over after a golf shot, not falling over when doing lunges or squats in the gym |
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Agility |
Description The ability to change the body’s position quickly and precisely |
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Examples Changing direction while dribbling a soccer ball, side stepping in rugby, swaying to avoid a punch in boxing |
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Strength |
Description Strength is the maximum force a person can exert on a given resistance for a set number of repetitions or set time |
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Examples Lifting a bed down a set of stairs, carrying six heavy shopping bags in from the car, climbing a rope ladder on an obstacle course, lifting very heavy weights in the gym |
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Hypertrophy |
Description The ability to grow a muscle/group of muscles |
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Examples Growing total muscle mass in the off-season for a rugby league front rower, building muscle size in the gym, building muscles that have wasted away over time due to a sedentary lifestyle |
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Muscular endurance |
Description The ability to work a particular muscle or muscle group for longer periods at less than maximal effort |
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Examples A small craft yachtsmen squatting in the boat for long periods, a snow boarder developing leg stamina for boarding, doing as many push ups as you can in a circuit class |
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Anaerobic fitness |
Description The ability to sustain high intensity efforts for as long as possible |
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Examples A 400 or 800 metre runner, a basketball player during several minutes of continuous play, any form of interval training |
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Aerobic fitness |
Description The ability to sustain exercise for extended periods of time using large amounts of muscle mass in cyclical (repeated) movement at low to moderate intensities |
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Examples A 10km run, a triathlon, walking a track, cycling an hour home from work |
It’s important to realise that fitness components exist on a continuum rather than as distinct areas as depicted in the previous table. An obvious example of this concerns repetition ranges with resistance training. Strength training is typically low repetition with very high loads, hypertrophy is typically high load resistance training for intermediate reps, and muscular endurance is typically high reps with lower loads. Strength training for example doesn’t ‘stop’ as soon as you do more than 6 reps for example, the training just becomes predominantly hypertrophy training.
In the same vein if I went for a long distance jog I’d primarily be training the aerobic fitness component, but while out on the jog I might get chased by an angry dog causing me to increase my speed considerably to avoid getting bitten. This would mean that for a short period of time I’d predominantly be working the components of speed and/or anaerobic fitness before returning to training the aerobic fitness component as I reduced my speed when the dangerous dog passed.
What we have done in the exercise sciences is to define fitness components and attach training guidelines to each component. These training guidelines are known simply as the ideal ‘FITT’ (frequency, intensity, time and type) variables that we must manage to affect the component we want to change or maintain.
The application of the FITT variables for the different fitness components is covered in more depth in the exercise prescription pages at ptdirect.
Medically reviewed by Micky Lal, MA, CSCS,RYT — Written by Katey Davidson, MScFN, RD, CPT on May 23, 2022
It’s well known that being physically active is important for good health.
We’re told to get our daily steps in, lift some weights, and avoid sitting too much. Yet, it’s hard to know how this relates to health and what being fit really means.
This is where the five health-related components of physical fitness can come in handy. Dividing fitness into five categories can help you better design a training program that promotes good health.
This article tells you all you need to know about the five health-related components of fitness, why they’re important, and how to include them in your workout routine.
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While you may know the many benefits of being physically active — like a reduced risk of chronic disease, improved mental health, and better quality of life — you may wonder what being physically fit really means.
The five health-related components of physical fitness can be a useful guide to help you achieve physical fitness and promote good health. They describe five areas to focus on in your fitness journey to ensure a well-rounded, active lifestyle.
The five areas of health-related fitness are (1, 2):
- Cardiovascular endurance: the ability to perform exercises at moderate-to-vigorous intensities for a prolonged period of time.
- Muscular strength: how much force your muscles can exert or how heavy weights they can lift.
- Muscular endurance: the ability of your muscles to sustain exercise for a period of time.
- Flexibility: the ability to move muscles and joints through a full range of motion.
- Body composition: your body’s ratio of fat mass to fat-free mass like muscle and bone.
SummaryThe five health-related components of physical fitness are cardiovascular endurance, muscular strength, muscular endurance, flexibility, and body composition.
Exercise provides many benefits and supports your health.
Some benefits are immediate, like improved mood, sleep, insulin sensitivity, and blood pressure. Other benefits are noticeable after a few months, like increased muscle mass, strength, flexibility, and lung capacity (1).
Further, numerous studies have found that being physically fit protects against many diseases and health issues — including heart disease, stroke, type 2 diabetes, osteoporosis, depression, dementia, and certain types of cancer, just to name a few (1, 3, 4, 5, 6, 7).
Being physically active can also support healthy aging and increase how many healthy, active years you have. For example, strength training into late adulthood can help preserve lean muscle mass, which is a major predictor of falls and quality of life (1, 8, 9).
Ultimately, living an active lifestyle no matter your age is important for supporting good overall health.
SummaryA well-rounded exercise program has been shown to improve your health in many areas. For instance, it can reduce the risk of chronic disease, improve your mental wellbeing, and support healthy aging.
Cardiovascular, or cardio, fitness refers to your body’s ability to sustain exercise for longer. It’s also known as cardiorespiratory endurance or aerobic fitness.
Good cardio fitness allows you to perform different activities for longer because your heart and lungs are able to deliver oxygen and nutrients to your working muscles.
Examples of activities that benefit from good cardio endurance include walking, jogging, swimming, cycling, and other sports that require continuous movement.
It’s recommended that you get 150–300 minutes of moderate-intensity exercise, 75–150 minutes of vigorous-intensity exercise, or a combination of both each week (1).
Moderate-intensity exercise can be sustained for longer than vigorous-intensity exercise, though exactly how long varies between individuals and their fitness levels (1).
A good way to test if you’re exercising at moderate intensity is to do the talk test. If you can talk but not sing, you’re likely at moderate intensity. If you can’t even talk without pausing for a breath, you’re likely at a vigorous intensity (1).
What is moderate intensity for one person may be vigorous for another. Therefore, it’s best to make goals based on your current fitness level (1).
If you become fatigued or out of breath quickly, decrease the intensity or duration of your exercise and build up from there. Any increase in cardio exercise is beneficial, so make realistic goals that work best for you.
SummaryCardiovascular endurance, or cardio, is important for strengthening your heart and lungs, which help to deliver oxygen and nutrients throughout your body.
Muscular strength is the ability of a muscle group to exert force or lift and carry weight. The stronger your muscles, the heavier weight you can lift and move (10).
Muscular strength can vary between different muscle groups. For example, you may have strong glutes and quads but weaker biceps.
To ensure well-rounded muscular strength, it’s important to prioritize muscular strength training of all major muscle groups like legs, arms, core, shoulders, back, and hips.
To measure your muscular strength, you can test your one-rep max, which is the maximum weight you can lift for one rep.
That said, your one-rep max isn’t the only way to tell if you’re getting stronger. Progressive overload — defined as gradually increasing weight, volume, training frequency, or intensity over time — is another great way to measure your progress (11).
In addition to building strength, you may want to aim for muscle hypertrophy, or building muscle mass. To do so, aim for 8–12 reps per set. Once you can easily perform 12 reps, increase the weight, as this indicates you’re getting stronger (10, 12).
If you want to increase your one-rep max, focus on your maximal muscular strength. You can do so by incorporating exercises with heavy weights and low reps — usually 2–6. Make sure you practice proper form to reduce the risk of injury (10, 12).
Ideally, try to add strength training to your workout program at least 2–3 times per week.
SummaryBeing physically strong helps you move and lift heavier objects with ease, which can make day-to-day tasks much easier.
Unlike muscular strength, which measures how much weight you can lift or move, muscular endurance tests how long your muscles can withstand an exercise (12).
In addition to training for muscular strength, make sure you add some muscular endurance activities into your routine, such as:
- Weight training. Instead of aiming for a low rep range, try to lift lighter weights with a higher rep range — like 20 or more reps — until your muscles become fatigued.
- Isometric exercise. This involves holding your body in the same position for an extended period of time. For example, holding a plank for as long as you can.
- Longer duration training. Using your muscles for long periods of time, like cycling, running, swimming, or stair climbing, relies on muscular endurance to keep you going. The more you train, the longer your muscles can go before reaching fatigue.
If you’re looking to improve your general endurance, low-intensity bodyweight exercises are a great starting point. For example, pilates, yoga, stair climbing, and long-distance activities are good options.
If you’re looking to improve your athletic performance, consider incorporating higher rep strength training and sport-specific training to increase your muscular endurance.
SummaryMuscular endurance is how long your muscles can endure an exercise. It’s important for longer duration exercise as it allows you to withstand exercise for longer without getting fatigued.
Flexibility is defined as the range of motion of a joint or group of joints without pain or difficulty (1).
Being flexible is important for daily living. For instance, it can make it easier to maintain good balance, reach the top shelf of a cupboard, or bend down to pick up something from the ground.
Further, some activities require more flexibility than others, such as gymnastics, dance, and martial arts.
Though there is debate on its benefits in reducing pain and injury risk, stretching can increase your flexibility and may enhance your performance in activities that require you to be more flexible (13, 14).
When stretching, the goal is to be gentle and limit the risk of injury. Avoid stretching your muscles to the point of extreme discomfort or pain. Aim to do stretching activities at least 2–3 days per week.
To increase your flexibility, there are three types of stretching to utilize:
Static stretching
This involves stretching and holding a muscle for 10–30 seconds.
When stretching this way, your brain relaxes the muscles that support your joints.
While helpful for flexibility, it may increase the risk of injury prior to activities that rely on joint support, such as weight training or high intensity sports. Therefore, this type of stretching is generally best reserved for the cool-down phase of a workout.
Dynamic, or active, stretching
These are active movements that take your muscles and joints through a full range of motion.
This is usually done during a warm-up or can be done by itself like during a stretching break at work.
Examples include shoulder rotations, leg swings, walking lunges, and trunk twists.
Dynamic exercises
These include exercises that elongate and stretch the muscle during movements, such as when performing pilates, yoga, tai chi, and barre.
Unlike static stretching, the muscles aren’t held in a single position for a longer period of time. The purpose of dynamic movement is to wake up the muscles needed for the upcoming exercise.
It’s great to include dynamic stretching in a warmup routine before both endurance and strength training to prepare your body for movement.
Endurance exercises that benefit from dynamic movement include biking, running, and swimming, as well as sports activities like basketball, soccer, and volleyball.
SummaryRegular stretching can help increase flexibility and may support your performance in sports that require flexibility. Being flexible may help you perform daily tasks easier and maintain better balance, though more research is needed.
Body composition is the last health-related component of fitness. It describes the ratio of fat mass to fat-free mass (2).
Body fat is essential to human health. However, having too much — especially around the stomach area — has been linked to poorer health and a greater risk of chronic diseases like heart disease, type 2 diabetes, and certain types of cancer (15, 16).
Meanwhile, having greater muscle and bone mass is linked with improved health outcomes and a lower risk of chronic diseases (17).
Keep in mind that health looks different for everyone. The below parameters can help you understand your body composition (18, 19, 20, 21):
- Waist circumference. A larger waist circumference (>35 inches or 85 cm in women and >40 inches or 101.6 cm in men) indicates greater body fat in the stomach area and is linked with a higher risk of chronic disease.
- Waist-to-hip ratio. A high ratio (>0.80 in women and >0.95 in men) is associated with a higher risk of chronic disease.
- Bioelectrical impedance analysis (BIA). A convenient but less accurate measure of body fat percentage. You can find these machines in some fitness centers or purchase at-home BIA scales.
- Dual-Energy X-ray Absorptiometry (DEXA). Performed in clinical settings, DEXA measures bone mineral density, muscle mass, and fat mass. It can give a more accurate idea of your body composition. However, it’s less accessible and can be costly.
- Hydrostatic underwater weighing. This method measures your weight on land and then again underwater using an underwater scale. This method is usually reserved for research settings.
- Air Displacement Plethysmography (ADP) or BodPod. Found in specialty clinics, BodPods measure your total weight, fat mass, and muscle mass. It’s much easier to perform than hydrostatic underwater weighing.
You can also use body mass index (BMI) to give you a general idea of your body composition. However, it’s less specific and rarely paints a true picture of your health.
While body composition is an important component of fitness, it’s not the only one. Focusing on the other four areas of fitness — cardiovascular endurance, flexibility, and muscular strength and endurance — may help you achieve a healthy body composition.
SummaryWhile every body is different, having too much body fat and not enough muscle can lead to health problems. Fortunately, the other four components of fitness can help you achieve a body composition that is healthy for you.
When designing a training program, it’s important to consider your current fitness level, goals, schedule, and preferences.
Ideally, aim to reach the physical activity guidelines, which include (1):
- 150–300 minutes of moderate-intensity exercise, 75–150 minutes of vigorous-intensity exercise, or a combination of both every week.
- 2–3 days of muscular strength and endurance training per week.
- at least 2–3 days of stretching and flexibility training per week.
You can assign each component to certain days of the week or incorporate each aspect into a single workout.
For example, you may choose to do strength training on Monday, Wednesday, and Friday, cardio on Tuesday, Thursday, and Saturday, and stretching a few days a week.
Alternatively, you can focus on exercises that incorporate both strength training and cardio, such as high intensity interval training or boot camps.
Ultimately, the goal is to add each component of fitness into your training program in a way that works for you. With a little trial and error, you’ll be able to find a workout routine that you enjoy and helps you achieve your desired results.
SummaryFor a well-rounded exercise program, try to incorporate the first four components of fitness — cardio, muscular strength and endurance, and flexibility — into your training plan throughout the week.
The five health-related components of fitness can work as a useful guide toward achieving physical fitness.
Each of the components — cardio, muscular strength and endurance, flexibility, and body composition — are associated with better physical fitness and overall health.
Though your training plan depends on your fitness goals, it’s a good idea to incorporate a variety of training modalities into your workout routine. This may include some cardio exercises, muscular strength and endurance training, and stretching or dynamic movement.
Since each area is important for health and overall fitness, keep them all in mind when designing your workout program.
Last medically reviewed on May 23, 2022