Fri Jun 30, 2017 by Michael Carroll
The video above is Behind The Scenes content from the Senior episode of the TPI show. You can watch the complete show on training/coaching seniors on our site.
- Still, there is only about a 10 mph club head speed difference between the guys in the 60-to-69 age category and the main tour average of about 113 mph. In my work as a Swing Speed Trainer, I can definitely tell you it's possible to add 10 mph of speed to swing through swing speed training.
- This is one of the most important questions to answer as most of the data out there is on PGA and LPGA tour averages. To have 13 and 65 year olds comparing themselves to the 113 mph PGA Tour average or the 98 mph LPGA Tour average is silly (and, in some cases, potentially dangerous).
The U.S. Senior Open kicks off this week and Salem CC will showcase incredible ball striking, creativity, precision, and, yes, power. While the term 'senior golf' might conjure images of sub 100 mph driver swings, you won't see much of that this week. The longest on the Champions Tour still threaten 300 yards off the tee. Obviously, they benefit from effecient technique and sequencing, but many have also done an excellent job taking care of their bodies. Let's take a look at how golfers can optimize their training and preparation to hold off Father Time.
Writing this as a 26 year old may seem strange or ironic to some, but one of the most rewarding parts of my job is facilitating improved levels of golf (and life) for some of my older clients. 'Old' is a subjective term, that must not be identified simply by the number of years one has been alive. The level of physical function, and health one has is a far better metric. For the sake of this article I want everybody to consider they are 'old'. The reason for this is that in my opinion the training programs of people all ages should have quite similar goals. Additionally, the younger one can start taking ownership of their physical function the easier it is to develop high levels of athleticism, providing a very tall peak from which their imminent eventual physical decline can begin. Just as importantly, nobody is 'too old' to start improving their physical function, even though it is a common gripe I hear. One's response to a training stimulus may diminish as the years roll on, but this absolutely does not mean they stop, or that one has an excuse to stop training if extending one's quality & enjoyment of golf (and everyday life) is a goal. This is a longer article than most I have written but if there is one piece of my work you share with family, friends, loved ones, co-workers please let it be this.
I have worked with many people between the ages of 60-80, and have witnessed both the exceptional levels of physical function that can be developed and maintained if one is disciplined with an appropriate training regime throughout their life, and also the transformation that can be made by older people who take to training in their fifth, sixth, seventh, or eighth decade. I haven't had the pleasure of working with anyone in their ninth or tenth decade yet but I'm sure it's around the corner. Please reach out if anyone reading meets this criteria!
The aim of this article is to shed some light on why it is absolutely critical and non negotiable that 'older' adults should have some strength and speed/power training in their programs. I will try my best to provide a breakdown of the latest research in these areas of training in 'older' populations, and share how I combine it with my practical experience to implement it into training programs.
Rank this week rank last week player name rounds avg. Total club head speed total attempts fastest speed slowest speed; 1: 1: cameron champ: 78: 128.01: 10,240.64: 80: 135.23.
Golf and Age:
The vast majority of golfers experience a significant loss in club head speed and distance as they age. It's a complaint I have heard from pretty much every golfer I have trained who is into their 50's, and certainly 60's. Golf score, and either directly or indirectly, level of enjoyment from the game starts to decline as this speed reduction occurs. Let's make one point very clear. It's not your chronological age that is primarily responsible for the decline in distance, it is your drop in strength and speed/power. There is a huge difference, because chronological age cannot be changed, but strength, power and speed levels most certainly can….at any age.
Why Does Speed Drop Off With Age?
By understanding the mechanisms that underlie this drop off in power it becomes much easier to try and apply appropriate training interventions.
1 Decrease in Muscle Activity / Neural Drive:
To carry out a movement, our Central Nervous System (CNS) must activate motor units (MU's). Motor units are comprised of a motor neuron (nerve), and the muscle fibers that it innervates. In an effort to avoid complexity, the more MU's that are recruited, and the faster that these signals to recruit MU's are sent from the CNS, the stronger and faster our movements can be. This is of course extremely important for generating high club head speed. It has been well established that as one ages there is a loss in working MU's which means generating high levels of force and speed becomes more difficult.
2 Muscle Fiber Type:
Going quickly back to MU's, it should be noted that all muscle fibers in an MU are the same type. You have probably heard of 'fast twitch' and 'slow twitch' muscle fibers, and these differences in muscle fiber type are very real and very important. Fast twitch muscle fibers are capable of much faster, and stronger contractions, and are therefore vital for explosive movements like the golf swing. It is well established that as one ages, there is a decrease in the size and amount of these fast twitch muscle fibers. There is also some debate that fast twitch fibers start to 'convert' to slow twitch fibers, and become innervated by a slow twitch neuron. Interestingly, slow twitch fibers don't degrade anywhere near as much with age, compared to the fast twitch counterparts.
3 Sarcopenia:
This is the term given to the loss of muscle size and strength due to aging. Muscle power, which is a combination of force and velocity does not receive the same attention but it certainly warrants it. Due to the selective atrophy and loss of fast twitch fibers, and other more complex nervous system factors, muscle power is lost at approximately twice the rate of muscle strength (Skelton et al 1994). This is a very important point to note if maintaining high club head speed is a goal. With similar levels of muscle mass, and maximum strength, elderly populations tend to have much lower power levels.
What Can Be Done About It - Training
While the information above may make it seem all hope is lost, the great thing about muscle, and the CNS is that they're very responsive to training, even in 'old' people. The key word here is 'training'. Recreational activity, or general exercise is not the same thing, and the training must meet some specific criteria for maximum benefit to be attained.
In particular, there are two types of training that have massive benefit for reversing/delaying the loss of muscle power in aging populations. The first is strength training, which concentrates on developing the maximum force one can exert in a particular movement or exercise. With strength training, our primary goal is force production. This is best accomplished with a ''heavy' load, relative to the person's strength level. For the sake of this discussion let's classify heavy as the most load someone can use in a particular exercise and complete 3-6 perfect reps, but no more.
The second type is usually labelled under speed & power training. Another term for this is Rate of Force Development (RFD). RFD is usually classified as the amount of force generated in the first 200ms of muscular contraction. This is the vital difference between strength and RFD. Strength measures do not take the time to produce maximum force into consideration, while RFD is concerned with the maximum amount of force that can be produced very quickly (usually classified as the first 200ms of contraction).
This point is important to understand and take note of because there is a difference in how quickly older populations decline in strength, compared to RFD. As alluded to earlier RFD declines much more rapidly. Due to very short, explosive nature of the golf swing, RFD is a critical component of high club head speed so increasing or maintaining it for as long as possible is an important training consideration.
Average Clubhead Speed By Age 3
In the next section of the article I am going to provide some key takeaways from the research I have studied in this area, and give some examples of how I try to implement these concepts in the programs I provide for clients both in person, and as part of my online training services.
Research:
Maximum Strength Training: Wang et al (2016) Performed a study involving 11 males with an average age of 72 (+/- 3 years), and 13 males with an average age of 24 (+/- 2 years). The younger group was to act as a control, and did not complete the training intervention, they were just tested at the beginning for comparison purposes. Both groups were healthy, but neither group performed strength training as part of their regular activity. The researchers obtained a one repetition maximum (1RM) squat in a hack squat machine, to 90 degrees of knee flexion.
3 times per week for 8 weeks the elderly group performed a warm-up, then completed 4 sets of 4 repetitions with 85-90% of their 1RM in the same hack squat exercise. Critically, the subjects were informed to complete the lifting phase of the exercise as quickly as possible, which is essential for stimulating the CNS to recruit as many MU's as it can, as fast as possible. This intent to move the 'heavy' load as rapidly as possible during the upward phase of the lift has been shown in the past to have a beneficial impact on RFD. When the subject could complete more than 4 repetitions, the load was increased by 5kg.
After the 8 weeks of training when the elderly subjects were re-tested, there was a 41% average increase in the size of the fast twitch muscle fibers, and a 32% average increase in the percentage of fast twitch muscle fibers present. 1RM in the hack squat exercise improved by 68% on average, and RFD increased by 48% on average. Before the testing there was significant differences between these scores in the young and old groups. Upon completion of the training, the 1RM and RFD values in the 'old' group were similar to those of the young.
RFD or 'High Velocity' Training: Pereira etal et al (2012) carried out a study that more closely resembles the criteria for power or RFD training as opposed to maximum strength. 56 women with an average age of 62 (+/-5 years) took part in the experiment. The group was split in half, with 28 forming the intervention group, and 28 in a control group. None of the subjects had a history of resistance training.
Both groups were strength tested in the leg extension 1RM, bench press 1RM, and hand grip strength by dynamometer. Two power tests were also carried out. These were the vertical jump, and seated medicine ball throw. I was very happy to see these two power tests included as they are rarely used in studies with more elderly populations, but are very practical and easily replicated. (They also make for great training exercises)
During the training intervention the experimental group carried out 3 training sessions per week for 12 consecutive weeks. Over the course of the 12 weeks the subjects progressed from 3 sets of 10 repetitions with 40% of their 1RM to 3 sets of 4 repetitions with 75% of their 1RM in both the leg extension, and bench press. It must again be noted that the subjects were encouraged to move as quickly as possible during the upward phase of the lift. It was an explosive movement, not a slow steady tempo. This is a vitally important point. For the vertical jump and the seated medicine ball throw, the subjects progressed from 3 sets of 2 repetitions to 2 sets of 3 repetitions. This is an extremely low volume of work for the jumping and throwing. (This may have been purposefully kept this low due to the untrained nature of the subjects).
From pre to post testing, the experimental group increased on the bench press 1RM by an average 61.8%, the 1RM leg extension by an average of 44.1%, vertical jump height by 40.2%, and ball throwing distance by 17.2%. No significant changes were seen in the control group.
Practical Application:
Research results like those provided above and real world observations make the benefits of these training modalities impossible to ignore, and I always try to include them as an element of my clients training programs both in person and online. With this being said, some sense must be applied when deciding on how to train high force (strength), and high velocity (RFD) movements in older populations.
This is where having the experience of scaling, regressing & progressing different exercises and modes becomes invaluable. An accurate assessment of the clients readiness will dictate the training starting point, and the time and resources they are willing to commit will give an indication of where you can expect to help them progress to.
Maximum strength training, by nature is best accomplished with exercises where the client is in an environment where high forces can be produced, and likelihood of injury or mishap is low. Basic compound movements like variations of hip hinges/deadlifts, squats, and upper body pushes and pulls tend to do work quite well in my experience. Once the athlete is competent in the mechanics of the exercise, a simple Rate of Perceived Exertion (RPE) scale is an excellent way to choose the weight to use for the exercise. Lets use the hip hinge / deadlift as an example, and you have programmed for the set to consist of 6 reps. Start with a conservative load and once the set is finished, ask the client/yourself to give the set a difficulty rating out of 10. I tell clients that 1 is nothing, and 10 is complete maximum effort, extremely hard, and no way another rep would have been possible. The sweet spot is somewhere between 7-9, so adjust accordingly until you have a load that can lifted in perfect form with an RPE of 7-9/10. If technique starts to drift as the load increases, lower it to the heaviest load that can be done with perfect form. Load should never change technique.
The video below shows different variations of the hip hinge / deadlift, with some modifications that can be applied based on the client's circumstances such as height, mobility,motor control, previous injury etc. The progression outline here, along with the RPE method of weight selection should minimise issues:
For golfers, the methods I have found most effective for training high velocity / RFD movements are jumping, and medicine ball throw/slam variations. The medicine ball throw variations are usually quite simple to implement as most golfers are used to carrying out similar motions from practicing their golf swing. Jumps on the other hand can be a little bit daunting for slightly out of shape folk, or ones with lower limb injuries. I start these clients with exercises like 'triple extensions' or 'power step-ups' where one is still trying to produce force very quickly, but no impact from landing a jump occurs. Generally with some time, everyone then progresses into a very basic jump variation like a counter movement jump or low box jump.
Here is an example of a counter movement jump, great for lower body power and RFD. Mount and blade mercenary contract.
The tall kneeling rotational medicine ball throw is an I exercise I program to develop stability and rotational power of the torso.
Training & Injuries: Lack of education in regards to the benefits, uninformed and uneducated comments from the media, fear of hurting one's self / aggravating an old injury, being out of shape / too old, are the most common reasons people shy away from this type of training.
Nothing bugs me more about people not strength or power training because of the fear of injury. It's completely ridiculous. To quote an excellent strength and conditioning coach and researcher Bret Contreras
'If you think lifting weights is dangerous, try being weak, being weak is dangerous'.
He is exactly right. Of course precautions need to be taken and the exercise program needs to be scaled to a level that suits the individual. This is true for anything. Furthermore, improving strength levels in the appropriate movements and muscles is an excellent way to rehab old nagging injuries, and prevent injuries popping up in the future. Research is very clear on strength training aiding in injury prevention.
You basically have two choices.
Don't train for strength & power, allow yourself to become gradually weaker and slower over time, decreasing your enjoyment from golf, and quality of general physical function.
Take ownership of your strength & power training, take wherever you are now as your starting point, and embark on a plan for improvement….which can be improved significantly, regardless of your current fitness level or age!
Hopefully the information provided in this article has made you realise the critical importance of training to keep your muscles and nervous system strong and fast. It's one of the best investments of your time and energy for keeping your club head speed, and general quality of life high for as long as possible.
If you have any questions, please don't hesitate to reach out via email: fitforgolf18@gmail.com.
Mike Carroll has a BSc in Sport & Exercise Science from the University of Limerick, and is an accredited S&C Coach with the UK strength and Conditioning Association and TPI Fitness Level 2 Certified. He works with golfers of all levels, in individual and group settings. Currently based in Hansen Fitness For Golf, Irvine, CA.
Twitter: @fit_for_golf
Facebook: Fit For Golf Cork
References: Gta v crack only.
1. Skelton, D.A., Greig, C.A., Davies, J.M., Young, A., 1994. Strength, power and related
functional ability of healthy people aged 65–89 years. Age Ageing 23, 371–377.
2. Wang et al (2016) Impact of maximal strength training on work efficiency and muscle fiber
type in the elderly: Implications for physical function and fall prevention. Experimental Gerontology 91 (2017) 64–71
3. Pereira et al (2012) Effects of high-speed power training on functional capacity and muscle performance in older women. Experimental Gerontology 47 (2012) 250–255
Over the last few years, the benefit of club fitting has a made a tremendous impact on the game of golf. The only category of golfers who have not made massive improvements in their game due this fitting is the hordes of golfers who have yet pay the minimal fee (often free) to get it done.
At Age Defying Golf, we focus on improving the quality and enjoyment of golf for golfers over 50 years old. As such, I am writing this blog about the best golfer drivers for this age group.
Choosing the best drivers for golfers over 50 has little to do with the brand of golf club and more too do with the shaft and club head settings. Here are the dimensions that you need to know:
1) Club head speed: how fast you swing the driver ON AVERAGE.
2) Ball speed: how fast the ball is moving after contact
Average Senior Golf Swing Speed
3) Smash factor: is a multiple that combines club head speed and ball speed. In simple terms, it measures how good you hit the ball on average.
4) Launch angle: is angle from the ground that your ball is traveling on.
5) Whether you fade/slice or draw/hook the ball.
Before I give you a brief summary of what generally works best for seniors, you should know that any general advice I can give pales in comparison to the results you will get by getting fitted by a professional.
Golf and Age:
The vast majority of golfers experience a significant loss in club head speed and distance as they age. It's a complaint I have heard from pretty much every golfer I have trained who is into their 50's, and certainly 60's. Golf score, and either directly or indirectly, level of enjoyment from the game starts to decline as this speed reduction occurs. Let's make one point very clear. It's not your chronological age that is primarily responsible for the decline in distance, it is your drop in strength and speed/power. There is a huge difference, because chronological age cannot be changed, but strength, power and speed levels most certainly can….at any age.
Why Does Speed Drop Off With Age?
By understanding the mechanisms that underlie this drop off in power it becomes much easier to try and apply appropriate training interventions.
1 Decrease in Muscle Activity / Neural Drive:
To carry out a movement, our Central Nervous System (CNS) must activate motor units (MU's). Motor units are comprised of a motor neuron (nerve), and the muscle fibers that it innervates. In an effort to avoid complexity, the more MU's that are recruited, and the faster that these signals to recruit MU's are sent from the CNS, the stronger and faster our movements can be. This is of course extremely important for generating high club head speed. It has been well established that as one ages there is a loss in working MU's which means generating high levels of force and speed becomes more difficult.
2 Muscle Fiber Type:
Going quickly back to MU's, it should be noted that all muscle fibers in an MU are the same type. You have probably heard of 'fast twitch' and 'slow twitch' muscle fibers, and these differences in muscle fiber type are very real and very important. Fast twitch muscle fibers are capable of much faster, and stronger contractions, and are therefore vital for explosive movements like the golf swing. It is well established that as one ages, there is a decrease in the size and amount of these fast twitch muscle fibers. There is also some debate that fast twitch fibers start to 'convert' to slow twitch fibers, and become innervated by a slow twitch neuron. Interestingly, slow twitch fibers don't degrade anywhere near as much with age, compared to the fast twitch counterparts.
3 Sarcopenia:
This is the term given to the loss of muscle size and strength due to aging. Muscle power, which is a combination of force and velocity does not receive the same attention but it certainly warrants it. Due to the selective atrophy and loss of fast twitch fibers, and other more complex nervous system factors, muscle power is lost at approximately twice the rate of muscle strength (Skelton et al 1994). This is a very important point to note if maintaining high club head speed is a goal. With similar levels of muscle mass, and maximum strength, elderly populations tend to have much lower power levels.
What Can Be Done About It - Training
While the information above may make it seem all hope is lost, the great thing about muscle, and the CNS is that they're very responsive to training, even in 'old' people. The key word here is 'training'. Recreational activity, or general exercise is not the same thing, and the training must meet some specific criteria for maximum benefit to be attained.
In particular, there are two types of training that have massive benefit for reversing/delaying the loss of muscle power in aging populations. The first is strength training, which concentrates on developing the maximum force one can exert in a particular movement or exercise. With strength training, our primary goal is force production. This is best accomplished with a ''heavy' load, relative to the person's strength level. For the sake of this discussion let's classify heavy as the most load someone can use in a particular exercise and complete 3-6 perfect reps, but no more.
The second type is usually labelled under speed & power training. Another term for this is Rate of Force Development (RFD). RFD is usually classified as the amount of force generated in the first 200ms of muscular contraction. This is the vital difference between strength and RFD. Strength measures do not take the time to produce maximum force into consideration, while RFD is concerned with the maximum amount of force that can be produced very quickly (usually classified as the first 200ms of contraction).
This point is important to understand and take note of because there is a difference in how quickly older populations decline in strength, compared to RFD. As alluded to earlier RFD declines much more rapidly. Due to very short, explosive nature of the golf swing, RFD is a critical component of high club head speed so increasing or maintaining it for as long as possible is an important training consideration.
Average Clubhead Speed By Age 3
In the next section of the article I am going to provide some key takeaways from the research I have studied in this area, and give some examples of how I try to implement these concepts in the programs I provide for clients both in person, and as part of my online training services.
Research:
Maximum Strength Training: Wang et al (2016) Performed a study involving 11 males with an average age of 72 (+/- 3 years), and 13 males with an average age of 24 (+/- 2 years). The younger group was to act as a control, and did not complete the training intervention, they were just tested at the beginning for comparison purposes. Both groups were healthy, but neither group performed strength training as part of their regular activity. The researchers obtained a one repetition maximum (1RM) squat in a hack squat machine, to 90 degrees of knee flexion.
3 times per week for 8 weeks the elderly group performed a warm-up, then completed 4 sets of 4 repetitions with 85-90% of their 1RM in the same hack squat exercise. Critically, the subjects were informed to complete the lifting phase of the exercise as quickly as possible, which is essential for stimulating the CNS to recruit as many MU's as it can, as fast as possible. This intent to move the 'heavy' load as rapidly as possible during the upward phase of the lift has been shown in the past to have a beneficial impact on RFD. When the subject could complete more than 4 repetitions, the load was increased by 5kg.
After the 8 weeks of training when the elderly subjects were re-tested, there was a 41% average increase in the size of the fast twitch muscle fibers, and a 32% average increase in the percentage of fast twitch muscle fibers present. 1RM in the hack squat exercise improved by 68% on average, and RFD increased by 48% on average. Before the testing there was significant differences between these scores in the young and old groups. Upon completion of the training, the 1RM and RFD values in the 'old' group were similar to those of the young.
RFD or 'High Velocity' Training: Pereira etal et al (2012) carried out a study that more closely resembles the criteria for power or RFD training as opposed to maximum strength. 56 women with an average age of 62 (+/-5 years) took part in the experiment. The group was split in half, with 28 forming the intervention group, and 28 in a control group. None of the subjects had a history of resistance training.
Both groups were strength tested in the leg extension 1RM, bench press 1RM, and hand grip strength by dynamometer. Two power tests were also carried out. These were the vertical jump, and seated medicine ball throw. I was very happy to see these two power tests included as they are rarely used in studies with more elderly populations, but are very practical and easily replicated. (They also make for great training exercises)
During the training intervention the experimental group carried out 3 training sessions per week for 12 consecutive weeks. Over the course of the 12 weeks the subjects progressed from 3 sets of 10 repetitions with 40% of their 1RM to 3 sets of 4 repetitions with 75% of their 1RM in both the leg extension, and bench press. It must again be noted that the subjects were encouraged to move as quickly as possible during the upward phase of the lift. It was an explosive movement, not a slow steady tempo. This is a vitally important point. For the vertical jump and the seated medicine ball throw, the subjects progressed from 3 sets of 2 repetitions to 2 sets of 3 repetitions. This is an extremely low volume of work for the jumping and throwing. (This may have been purposefully kept this low due to the untrained nature of the subjects).
From pre to post testing, the experimental group increased on the bench press 1RM by an average 61.8%, the 1RM leg extension by an average of 44.1%, vertical jump height by 40.2%, and ball throwing distance by 17.2%. No significant changes were seen in the control group.
Practical Application:
Research results like those provided above and real world observations make the benefits of these training modalities impossible to ignore, and I always try to include them as an element of my clients training programs both in person and online. With this being said, some sense must be applied when deciding on how to train high force (strength), and high velocity (RFD) movements in older populations.
This is where having the experience of scaling, regressing & progressing different exercises and modes becomes invaluable. An accurate assessment of the clients readiness will dictate the training starting point, and the time and resources they are willing to commit will give an indication of where you can expect to help them progress to.
Maximum strength training, by nature is best accomplished with exercises where the client is in an environment where high forces can be produced, and likelihood of injury or mishap is low. Basic compound movements like variations of hip hinges/deadlifts, squats, and upper body pushes and pulls tend to do work quite well in my experience. Once the athlete is competent in the mechanics of the exercise, a simple Rate of Perceived Exertion (RPE) scale is an excellent way to choose the weight to use for the exercise. Lets use the hip hinge / deadlift as an example, and you have programmed for the set to consist of 6 reps. Start with a conservative load and once the set is finished, ask the client/yourself to give the set a difficulty rating out of 10. I tell clients that 1 is nothing, and 10 is complete maximum effort, extremely hard, and no way another rep would have been possible. The sweet spot is somewhere between 7-9, so adjust accordingly until you have a load that can lifted in perfect form with an RPE of 7-9/10. If technique starts to drift as the load increases, lower it to the heaviest load that can be done with perfect form. Load should never change technique.
The video below shows different variations of the hip hinge / deadlift, with some modifications that can be applied based on the client's circumstances such as height, mobility,motor control, previous injury etc. The progression outline here, along with the RPE method of weight selection should minimise issues:
For golfers, the methods I have found most effective for training high velocity / RFD movements are jumping, and medicine ball throw/slam variations. The medicine ball throw variations are usually quite simple to implement as most golfers are used to carrying out similar motions from practicing their golf swing. Jumps on the other hand can be a little bit daunting for slightly out of shape folk, or ones with lower limb injuries. I start these clients with exercises like 'triple extensions' or 'power step-ups' where one is still trying to produce force very quickly, but no impact from landing a jump occurs. Generally with some time, everyone then progresses into a very basic jump variation like a counter movement jump or low box jump.
Here is an example of a counter movement jump, great for lower body power and RFD. Mount and blade mercenary contract.
The tall kneeling rotational medicine ball throw is an I exercise I program to develop stability and rotational power of the torso.
Training & Injuries: Lack of education in regards to the benefits, uninformed and uneducated comments from the media, fear of hurting one's self / aggravating an old injury, being out of shape / too old, are the most common reasons people shy away from this type of training.
Nothing bugs me more about people not strength or power training because of the fear of injury. It's completely ridiculous. To quote an excellent strength and conditioning coach and researcher Bret Contreras
'If you think lifting weights is dangerous, try being weak, being weak is dangerous'.
He is exactly right. Of course precautions need to be taken and the exercise program needs to be scaled to a level that suits the individual. This is true for anything. Furthermore, improving strength levels in the appropriate movements and muscles is an excellent way to rehab old nagging injuries, and prevent injuries popping up in the future. Research is very clear on strength training aiding in injury prevention.
You basically have two choices.
Don't train for strength & power, allow yourself to become gradually weaker and slower over time, decreasing your enjoyment from golf, and quality of general physical function.
Take ownership of your strength & power training, take wherever you are now as your starting point, and embark on a plan for improvement….which can be improved significantly, regardless of your current fitness level or age!
Hopefully the information provided in this article has made you realise the critical importance of training to keep your muscles and nervous system strong and fast. It's one of the best investments of your time and energy for keeping your club head speed, and general quality of life high for as long as possible.
If you have any questions, please don't hesitate to reach out via email: fitforgolf18@gmail.com.
Mike Carroll has a BSc in Sport & Exercise Science from the University of Limerick, and is an accredited S&C Coach with the UK strength and Conditioning Association and TPI Fitness Level 2 Certified. He works with golfers of all levels, in individual and group settings. Currently based in Hansen Fitness For Golf, Irvine, CA.
Twitter: @fit_for_golf
Facebook: Fit For Golf Cork
References: Gta v crack only.
1. Skelton, D.A., Greig, C.A., Davies, J.M., Young, A., 1994. Strength, power and related
functional ability of healthy people aged 65–89 years. Age Ageing 23, 371–377.
2. Wang et al (2016) Impact of maximal strength training on work efficiency and muscle fiber
type in the elderly: Implications for physical function and fall prevention. Experimental Gerontology 91 (2017) 64–71
3. Pereira et al (2012) Effects of high-speed power training on functional capacity and muscle performance in older women. Experimental Gerontology 47 (2012) 250–255
Over the last few years, the benefit of club fitting has a made a tremendous impact on the game of golf. The only category of golfers who have not made massive improvements in their game due this fitting is the hordes of golfers who have yet pay the minimal fee (often free) to get it done.
At Age Defying Golf, we focus on improving the quality and enjoyment of golf for golfers over 50 years old. As such, I am writing this blog about the best golfer drivers for this age group.
Choosing the best drivers for golfers over 50 has little to do with the brand of golf club and more too do with the shaft and club head settings. Here are the dimensions that you need to know:
1) Club head speed: how fast you swing the driver ON AVERAGE.
2) Ball speed: how fast the ball is moving after contact
Average Senior Golf Swing Speed
3) Smash factor: is a multiple that combines club head speed and ball speed. In simple terms, it measures how good you hit the ball on average.
4) Launch angle: is angle from the ground that your ball is traveling on.
5) Whether you fade/slice or draw/hook the ball.
Before I give you a brief summary of what generally works best for seniors, you should know that any general advice I can give pales in comparison to the results you will get by getting fitted by a professional.
7 Iron Swing Speed Chart
Ok, with that said, the main issue that we are dealing with is how to pick the driver that will give you the best distance and performance. If you are over 50 years old your swing speed is probably slowing down due to increased weakness and loss of flexibility. An average golfer fitting this category may have had a swing speed of 105mph in their early forties decreased to 85 mph at the age of 60. This would result in a 270 yard drive paring down to a 215 yard drive leaving you 55 yards further from the hole for a very difficult approach shot. Visit here for our recommendations for drivers for golfers over 50
So the question is: how can we use the current state of technology to improve your driving distance with an 85mph swing? Here are the elements:
I) Shaft flex: Using a more flexible shaft flex will increase your swing speed without having to swing the club faster AND can help improve the squareness of the club face at impact. Here is a general rule-of-thumb chart:
|
***Some men(you big studs out there!) may have difficulty stepping down to a 'regular' or 'senior' flex shaft. Which adds to the already present issue of 'macho' men overswinging. You can continue to beat yourself up, or you can choose to lighten up and have more fun….error on the side of a more flexible shaft!
Once you have chosen the correct shaft you need to choose the correct:
I) Degree of Loft. When determining the degree of loft you are trying to figure out which loft gives you the longest ball flight. If you choose too little or too much loft you will lose distance. If you are trying to figure this out without being professionally fitted, you are guessing. A professional will measure your launch angle and compare to your ball speed to determine your best fit. And believe me, from experience, it will make a HUGE difference.
II) Smash factor: Smash factor is a multiple derived from your swing speed when compared to your ball speed. If you hit the sweet spot consistently, your smash factor will be excellent. If you do not hit the sweet spot consistently, then you need to find a driver that is more forgiving and maintains your ball speed on off center hits. Again, the professional fitter is your best resource.
III)The final component to find the best driver for your game is your ball flight. Simply, do you slice or fade the ball. It has long been known that a ‘draw' ball flight will net you the most distance. Most new drivers have settings to help you get the best ball flight and the best distance. Your fitting professional will watch you hit a bunch of balls with a bunch of different driver settings to determine the best adjustment to help you hit the best ball flight for maximum difference.
Click here to see our recommendations of the best golf drivers for over 50″s folk
In summary, being correctly fitted for a driver is significantly more important than the brand of driver or how much the driver costs. And fitting is very cheap, usually around $50. In addition, club manufactures regularly provide free fittings and golf courses everywhere so call your local club to find out when a fitting day will occur at their golf course. You will be glad you did.
D. Ryan York, DPT CGS
Doctor of Physical Therapy
Certified Golf Performance Specialist
Age Defying Golf