What are the biomechanics behind an effective hockey slap hit?

INTRODUCTION:

Hockey in the last 20 years has been one of Australia’s most dominant sports and with the recent success of the Hockeyroos finishing second at the World Cup and the Kookaburras taking the title for the second World Cup in a row, we can see that the sport is developing within Australia once again. With the Commonwealth and Olympic Games just around the corner, teams around the world are looking at continuously developing their game to improve and be the best they can be. Many teams are looking at developing their passing game more then focusing on individual skills to beat other teams. One of the main ways to pass the ball to other teammates is through a slap hit. Using a slap hit can deliver the ball at high speeds and can also be used to deceive opposition players. In the following paper, we discuss the main principles of biomechanics involved in the hockey slap hit that can assist in improving the speed, accuracy, and efficiency of the pass.

THE SLAP HIT

https://www.youtube.com/watch?v=1APNbPqz9L4

As you can see from the video above, the slap hit is a skill that can be broken down into three phases: Preparatory, Contact and Release, and Follow Through. When preparing for the slap hit, players generally have a front on position with their body. The ball is level with the left foot, with the left foot facing the ball. The positioning of the ball is not critical and will vary from player to player but can be a factor in how effective the skill is performed. The body is low to the ground, with the left leg used as the leading leg throughout the skill. The back knee (right leg) is almost touching the ground, as the left leg steps towards the ball. The final thing during the preparatory phase is hand positioning. Like the positioning of the ball, it will vary from player to player. For optimal performance through the skill, the hands on the stick should be placed together at the top of the stick (Hockey SA, 2014).

Following the preparatory phase is the Contact and Release phase. Throughout this phase, players are using momentum that has begun in the preparatory phase to make contact with the ball. The right knee stays close to the ground; with the left leg acting as a stabiliser for the rest of the body and the body of the player gradually becomes lower to the ground. The stick connects with the ball, which should be in reach to create a stable environment for the body. The rotation of the body is critical to continue the momentum of the movement going through to the ball and on to the follow through phase. The follow through is the final phase of the slap hit and is the last critical component of the skill. In order to finish the skill effectively, the individual should maintain low body position to keep their balance. The stick should rotate around the body after the ball has been released for a greater chance of the pass being accurate (Hockey SA, 2014).

After discussing the three phases of the slap hit, we can determine what biomechanics principles should be addressed in order to perform the skill effectively and improve the speed and accuracy of the pass. These principles include Force summation, 3^rd class levers, impulse and accuracy, and balance and stability.

Force summation

The slap hit is a skill that requires momentum for the ball to be released with speed. To create this momentum, the principle of force summation is applied during the skill. Force summation is the combing of a number of force producing movements used together in sequence to apply one final maximum force upon the hockey ball (Blazevich, 2012). This is a result of momentum travelling through the largest and slowest body parts such as the legs and hips and finishing with the smallest and quickest body parts such as the wrists. The smaller body parts feed off of the momentum from the bigger body parts producing a fast, dynamic movement. The force of the muscle groups should be applied in the same direction and correct sequence to achieve the greatest force (Wuest, 2009). In other words, in order to create momentum moving forward, the muscle groups and body parts are used sequentially to accelerate each body part. Perfect timing and stabilisers are also important factors that affect force summation and the outcome of the skill. As the first step is made and the front leg stabilises, the principle force summation is applied. This begins in the larger muscle groups of the legs, such as the quadriceps, hamstrings and gastrocnemius. This force then begins to travel through the smaller body parts. It travels through the hips and core as the body begins to rotate upon contract. Once contact has been made, the upper body contracts with the biceps, triceps and deltoids, then finishes off with the forearms and the rotation of the wrists as the skill is completed and follow through occurs. If an individual is not using each muscle to potential, for example the use of full force of the lower body, then the movement relies on upper body strength rather the summation of force. This would result in reduced force being applied to the ball, therefore the pass being slower and even possibly inaccurate. If correct sequence of the skill occurred, with using the full potential of each muscle group, the summation of force would be maximised. During the preparatory phase, force summation begins in the legs and hips. Through the contact and release phase, force summation moves through the legs, hips and the trunk and transferring through to the arms and upper body. During the follow through, force summation is coming to and end as momentum has been generated through the body. The force finishes with the smaller body parts like the wrists.

3^rd class levers

A third class lever is mostly used to describe levers within the human body (Davidovits, 2008). This applies to a slap hit as the shoulder provides the fulcrum, the effort is the stick and the resistance is the ball. This leads to a speed advantage rather than a strength advantage, which is why the slap hit, is a useful pass in a hockey game, as it assists in speeding up the game and keeping the ball away from the opposition. The force arm is important in this skill, as the longer the lever, the greater the velocity and momentum at impact. The length of the external lever, the arm, is increased by the stick, therefore producing a greater force. If the force arm is shortened, it reduces the length of the lever, therefore reducing the speed. During a game, this could possibly slow down the pass and make the pass inaccurate. For this to be improved, the ball could be further away from the body, allowing the arm and stick to fully lengthen to an almost straight arm. This increases the length of the lever by extending the arms out further, producing a greater momentum and force being applied to the ball (Davidovits, 2008). The 3^rd class lever is mainly involved in the contact phase. The longer the lever at contact, more momentum and power will be generated at the release of the ball as the stick increases the length of the force arm. This will make the speed, accuracy, and efficiency of the pass higher then with a shortened lever.

Impulse and accuracy

Impulse is the change of momentum that occurs when a force is applied to an object. This relates to a slap hit because when the stick makes contact with the ball, the balls momentum will change from zero to a particular momentum before it leaves the stick. However, the balls momentum, velocity and accuracy will depend on the force applied, which will be greater if it can be applied for longer (Davidovits, 2008). This applies when contact is made as a zone of flat line motion is created, also known as flattening the swing arc. Within this skill, if the zone of flat line motion can be held longer, and therefore increase contact time, a greater force will be applied, increasing both the speed and accuracy of the pass. This applies when contact is made as a zone of flat line motion is created, also known as flattening the swing arc. Within this skill, if the zone of flat line motion can be held longer, and therefore increase contact time, a greater force will be applied, increasing both the speed and accuracy of the pass. If the ball is placed too far in front of the body, then the contact time would be reduced and would not stay in contact through to the follow through making the quality of the pass low. This principle is applied during the contact phase where the longer the stick is in contact with the ball, the more power is generated increasing the speed of the pass.

Balance and stability

In order for the slap hit to be performed, the leading leg, in this case the left leg, must act as a stabiliser in a set position so no further movement of the leg can occur until the skill is complete. This provides the balance necessary to perform the skill since there is an unstable equilibrium, as the ball continues to move forward once the force has been applied (Blazevich, 2012). Centre of gravity and low wide base of support are crucial principles within the slap hit to provide balance and stability when moving forward, enabling an even distribution of weight required to remain upright and steady while performing the skill (Davidovits, 2008). Throughout each stage of the skill (see image 4), the centre of gravity remains within the wide base of support provided by the muscle of the lower extremities, providing the balance necessary as the body moves forward and rotates during the slap hit. The placement of the ball could affect an individual’s balance and stability. If the ball is not within the wide base support, the upper body would have to reach forward to make contact with the ball. This would reduce the balance and affect the individual’s ability to slap in a game situation, possible reducing the speed and accuracy. During the preparation phase, the individual has a wide base of support with their centre of gravity within the wide base of support. As the player moves forward within the skill, the centre of gravity must remain within the wide base of support to be able to remain balanced in order to perform the skill effectively. If the individual were unstable, the skill would not be performed with speed, accuracy and efficiency.

THE ANSWER:

In order to make an effective hockey slap hit, there are a number of factors contributing to the quality of the skill. The main principles behind the slap hit are balance and stability, 3^rd class levers, impulse and accuracy and force summation. Players that play at a high level have a good wide base of support, in particular, to provide them with balance, which is required for the skill to be performed. When all of these principles are applied, the speed, accuracy and efficiency of the slap hit will be at the level required to make a pass beat an opposition player during game play.

HOW ELSE CAN WE USE THIS INFORMATION:

The biomechanical principles used within the hockey slap hit can also be applied in other sports as well. We can use this information, particularly in the baseball swing which has similar rotational movement as the slap hit. The sweep shot in cricket also has the same movement as the slap hit. Even though these are completely different sports to hockey, and each skill is has its own elements, each skill requires a good wide base of support in order to complete the skill effectively. Each skill also has a rotational movement and relies upon force summation in order to create momentum throughout the skill.

REFERENCES:

Hockey South Australia, 2014. Retrieved from http://www.hockeysa.com.au/Portals/19/Skills_of_hockey_tiers.pdf

Davidovits, P. (2008). Physics in Biology and Medicine (3rd ed.): Academic Press.

Wuest, D. A., Butcher, C. A. (2009). Foundations of Physical Education, Exercise science, and Sport. New York, NY: McGraw-Hill