Ballistic Training
Encyclopedia
Ballistic training is a form of strength training
where an athlete lifts, accelerates, and then releases the weight, rather than slowly lowering it as in other forms of weight training.
es.
Ballistic training forces the athlete's body to recruit and trigger fast twitch muscle fibers. This is important because these muscle fibers have the greatest potential for growth and strength. Ballistic training requires the muscles to adapt to contracting very quickly and forcefully. This training requires the central nervous system
to coordinate and produce the greatest amount of force in the shortest time possible.
In traditional weight training the athlete accelerates the weight on the concentric portion over the first third of the lift. During the other two-thirds of the lift, the weight is being slowed, -decelerated- and then stopped. With ballistic training, the weight is accelerated through the whole range of motion and only starts to decelerate after the athlete has released the bar. The National Strength and Conditioning Association's Basic Guidelines for the Resistance Training of Athletes states that “performing speed repetitions as fast as possible with light weight (e.g., 30-45% of 1-RM) in exercises in which the bar is held on to and must be decelerated at the end of the joint’s range of motion (e.g., bench press) to protect the joint does not produce power or speed training but teaches the body how to decelerate, or slow down. If the load can be released into the air (i.e., the bar be let go at the end of the range of motion) the negative effects are eliminated.
Additional research has shown that as much as 75% of a movement can be devoted to slowing the bar down. Elliot, et al. (1989) reported that during 1-RM bench presses, the bar decelerates for the final 24% of the range of motion. At 81% of 1-RM, the bar decelerates for the final 52% of the range of motion. Research has shown that for best results it is important to load the bar with the amount of weight that allows for positive acceleration to be maintained through the full range of motion for the lift. An effective ballistic lift develops speed throughout the entire range of motion of the lift up until the moment of release.
2. Speed of the movement. To insure full muscle fiber recruitment the speed of the lift must be propulsive through the entire range of the movement up until release.
3. Intensity of the exercise. The duration of the lift should be measured by repetitions or time. The lift should be stopped when the bar decelerates. Research has shown the 6-8 repetitions or 20–30 seconds produces the best results.
4. Cardiovascular benefits. Ballistic exercises performed continuously for a minimum of 20 seconds followed by a 30 second rest period and then repeated until deceleration occurs has been proven to elevate the heart rate to training zone level.
5. Co-ordination. Research at the University of Connecticut found that high-intensity training has profound effects on the nervous system. The exercise had to be of an intensity that elevate the heart rate to 90% of maximum rate and had to sustain that rate for at least 20 seconds.
6. Electronic measurement. There are several electronic measurement systems that measure the velocity, power, and effectiveness of a lift. The athlete should stop the lift when the speed of a lift has fallen to 90% of their previous lift. The 90% number signals that there has been a significant change in the recruitment of the fast-twitch muscle fibers. Below the 90% number the lift is no longer ballistic
7. Specificity of training. Ballistic training emphasizes throwing and jumping with a weighted object. Research has resulted in positive increases in vertical jump, throwing velocity, and running speed. There is limited transfer to a specific sport.
Research has shown that optimal power is produced when the weight being lifted is 30% to 90% of an individual’s 1-RM; an alternative to 1-RM is to use 30% to 90% of the athlete’s body weight. Advanced lifters can use 70% to 90% of 1-RM but anything above this is not recommended.
The athlete should explode the weight up as fast as possible. The bar should leave the athlete’s hands during a press/clean or their feet will leave the ground when doing jump squats. The rate of acceleration should be manipulated to achieve the training objectives of the lifter.
Numerous studies have concluded that ballistic training is highly effective. Listed below are a number of those studies from which this article is based. One can refer to articles by Tim Scheett, Tom Kelso, and Kevin Newell as good reviews of ballistic training.
Many training programs which employ circuit training or metabolic conditioning now include ballistic exercises such as kettlebell cleans and snatches, Olympic lifts and variations, throws and plyometric variations. The benefits of their inclusion in these types of programs include higher levels of motor unit recruitment, higher caloric burn and improvements in a number of measurable athletic outputs.
Strength training
Strength training is the use of resistance to muscular contraction to build the strength, anaerobic endurance, and size of skeletal muscles. There are many different methods of strength training, the most common being the use of gravity or elastic/hydraulic forces to oppose muscle contraction...
where an athlete lifts, accelerates, and then releases the weight, rather than slowly lowering it as in other forms of weight training.
History
Ballistic training, also called power training, was first used among elite athletes who were looking for a method to develop explosiveness. The word ballistic comes from the Greek word ballein, which means “to throw.” In this type of training the athlete accelerates and releases the weight into "free space." Common ballistic training exercises are bench throws, jump squats, cleans, snatches, and push pressPush press
A push press is a weight training exercise for the anterior head of the deltoid .-Execution:The push press is practically the same as the military press; however, the movement is started by a 'push' from the legs. This begins the momentum of the movement, the weight is then slowly lowered back to...
es.
Ballistic training forces the athlete's body to recruit and trigger fast twitch muscle fibers. This is important because these muscle fibers have the greatest potential for growth and strength. Ballistic training requires the muscles to adapt to contracting very quickly and forcefully. This training requires the central nervous system
Central nervous system
The central nervous system is the part of the nervous system that integrates the information that it receives from, and coordinates the activity of, all parts of the bodies of bilaterian animals—that is, all multicellular animals except sponges and radially symmetric animals such as jellyfish...
to coordinate and produce the greatest amount of force in the shortest time possible.
In traditional weight training the athlete accelerates the weight on the concentric portion over the first third of the lift. During the other two-thirds of the lift, the weight is being slowed, -decelerated- and then stopped. With ballistic training, the weight is accelerated through the whole range of motion and only starts to decelerate after the athlete has released the bar. The National Strength and Conditioning Association's Basic Guidelines for the Resistance Training of Athletes states that “performing speed repetitions as fast as possible with light weight (e.g., 30-45% of 1-RM) in exercises in which the bar is held on to and must be decelerated at the end of the joint’s range of motion (e.g., bench press) to protect the joint does not produce power or speed training but teaches the body how to decelerate, or slow down. If the load can be released into the air (i.e., the bar be let go at the end of the range of motion) the negative effects are eliminated.
Additional research has shown that as much as 75% of a movement can be devoted to slowing the bar down. Elliot, et al. (1989) reported that during 1-RM bench presses, the bar decelerates for the final 24% of the range of motion. At 81% of 1-RM, the bar decelerates for the final 52% of the range of motion. Research has shown that for best results it is important to load the bar with the amount of weight that allows for positive acceleration to be maintained through the full range of motion for the lift. An effective ballistic lift develops speed throughout the entire range of motion of the lift up until the moment of release.
Criteria
1. Muscle recruitment principles. Ballistic lifts force the muscles to produce the greatest amount of force in the shortest amount of time. In accordance with Hennemen’s principle muscle fibers are recruited from a low to a high threshold as force requirements increase.2. Speed of the movement. To insure full muscle fiber recruitment the speed of the lift must be propulsive through the entire range of the movement up until release.
3. Intensity of the exercise. The duration of the lift should be measured by repetitions or time. The lift should be stopped when the bar decelerates. Research has shown the 6-8 repetitions or 20–30 seconds produces the best results.
4. Cardiovascular benefits. Ballistic exercises performed continuously for a minimum of 20 seconds followed by a 30 second rest period and then repeated until deceleration occurs has been proven to elevate the heart rate to training zone level.
5. Co-ordination. Research at the University of Connecticut found that high-intensity training has profound effects on the nervous system. The exercise had to be of an intensity that elevate the heart rate to 90% of maximum rate and had to sustain that rate for at least 20 seconds.
6. Electronic measurement. There are several electronic measurement systems that measure the velocity, power, and effectiveness of a lift. The athlete should stop the lift when the speed of a lift has fallen to 90% of their previous lift. The 90% number signals that there has been a significant change in the recruitment of the fast-twitch muscle fibers. Below the 90% number the lift is no longer ballistic
7. Specificity of training. Ballistic training emphasizes throwing and jumping with a weighted object. Research has resulted in positive increases in vertical jump, throwing velocity, and running speed. There is limited transfer to a specific sport.
Basic principles
The most common ballistic exercises are bench throws, jump squats, cleans, and variations of the Olympic lifts. The rate of acceleration is controlled by adjusting the amount of weight on the bar. If the weight is too light the rate of acceleration will be too fast and if the weight is too heavy the bar will decelerate before the release point.Research has shown that optimal power is produced when the weight being lifted is 30% to 90% of an individual’s 1-RM; an alternative to 1-RM is to use 30% to 90% of the athlete’s body weight. Advanced lifters can use 70% to 90% of 1-RM but anything above this is not recommended.
The athlete should explode the weight up as fast as possible. The bar should leave the athlete’s hands during a press/clean or their feet will leave the ground when doing jump squats. The rate of acceleration should be manipulated to achieve the training objectives of the lifter.
Numerous studies have concluded that ballistic training is highly effective. Listed below are a number of those studies from which this article is based. One can refer to articles by Tim Scheett, Tom Kelso, and Kevin Newell as good reviews of ballistic training.
Use in Metabolic Conditioning
Ballistic exercises have traditionally been left out of metabolic conditioning workouts and training programs. This may be due to the fact that they are often technical lifts, or lifts/exercises for which technique is crucial to safe and effective completion. However, with the extensive availability of information and guidance in learning and developing proficiency in ballistic exercise, this trend is changing.Many training programs which employ circuit training or metabolic conditioning now include ballistic exercises such as kettlebell cleans and snatches, Olympic lifts and variations, throws and plyometric variations. The benefits of their inclusion in these types of programs include higher levels of motor unit recruitment, higher caloric burn and improvements in a number of measurable athletic outputs.