Introduction
Olympic Weightlifting can be a sport where athletes compete for that total weight of 2 lifts: the snatch and the clean & jerk. The courses methods found in Weightlifting are also utilised by Strength & Conditioning coaches as a method of lifting weights for a number of other sports. One of the primary factors behind exploiting various lifting weights modalities such is perfect for power development. There are lots of variations on the party theme of power training. A few of these training modalities include plyometrics (Wilson, Elliot & Wood 1990), assisted and resisted training (Faccioni 1993a; 1993b) and speed and acceleration drills (Cinkovich 1992). A trendy method utilized to increase athletic power is Olympic Weightlifting (ie power cleans, push presses, snatches, jump jerks in addition to their variations) conducted from the training (Garhammer, 1993). It’s traditionally been viewed as a efficient way of manufacturing general explosive ability (Takano 1992; Stone 1993; Garhammer & Gregor 1992). However, there are additional important considerations which need to be addressed when implementing Olympic lifting exercises in the Strength & Conditioning program of the athlete, some of these include movement competency, training age, sport and training time with athlete. The objective of this post by Elite Performance Institute (EPI) is to give a biomechanical and physiological discussion as to the reasons weightlifting workouts are useful to improve athletic performance and just how they will be performed within a training course. For additional information, please visit www.epicertification.com

Power Defined
Power has been understood to be the best mix of speed and strength to make movement (Chu 1996). Specifically, power represents draught beer the athlete to make high numbers of function with certain distance. The greater power a sports athlete possesses the larger the level of work performed (Wilson 1992). Power can be a mix of strength and speed:
POWER = FORCE (strength) X VELOCITY (speed to move)
There are lots of physiological and neural adaptations which comprise the strength component (Moritani 1992). Physiological adaptations to strength consist of more muscle tissues through hypertrophy, ligament density and bone integrity (Tesch 1992a). Neural adaptations (Schmidtbleicher 1992) that may be produced are: (1) increased recruitment of motor units; (2) increased firing rate of motor neurones; (3) synchronised firing of motor neurones; (4) rise in intra-muscular coordination; and (5) rise in inter-muscular coordination.
Speed to move is composed of a number of interrelated factors (Ackland & Bloomfield 1995). They’re; (1) muscle fibre type; (2) skill; (3) muscle insertion points; (4) lever length; (5) muscular posture; and (6) elastic energy utilisation of the series elastic component.

Olympic Weightling exercises facilitate progression of the center (Strength-Speed and Speed-Strength) of the force-velocity (FV) curve (see above). The FV curve acts a guide to Strength & Conditioning Certification UK according to the form of strength developed from each exercise, session or phase to train from the program. Because of this, the Strength & Conditioning coach can effectively plan what type of power they need to develop and which training modality (powerlifting, Olympic liftining, plyometrics, etc) is better utilised to elicit these adaptations.

Conclusion
Concern still exists regarding ef?cacy of including Olympic weightlifting exercises from the lifting weights programs of athletes in sports besides weightlifting. These concerns generally get into 3 broad categories: 1) Perceived time needed to learn the movements because of the complexity of the lifts. 2) An absence of idea of the opportunity bene?ts that may be produced from performing Olympic lifting exercises correctly. 3) Concern in the possibility of injury caused by practicing these weightlifting movements.
It can be evident there is a large number of biomechanical great things about practicing these lifts with limited disadvantages. The biggest risk has been of the perceived danger of practicing these lifts. On the basis of evidence presented by Brian Hammill of the British Weightlifting Association (BWLA), it can be stated with con?dence how the risk of harm can be as low or less than most sports so long as there is quali?ed supervision furnished by certi?ed Strength and Conditioning coach who have been trained in coaching the weightlifting movements.
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