In last week’s post, we took a closer look at the force-velocity relationship and it’s underlying science. Recall that when force requirements are high, velocity outputs will be low - and vice versa. This has important implications because of the different movement requirements on a tennis court along with the methods used to improve relevant athletic qualities. Look at the figure below - it’s a theoretical look at where certain movements and strokes etc. lie on the force-velocity curve (this is an adapted representation based on science and my anecdotal experience). Even some of these movements will have different force-velocity requirements at the muscular level - when decelerating for a wide ball for instance, the initial deceleration step will have higher forces acting on the lower-body then the last step just before planting (because we’re trying to stop from a relatively fast movement speed).
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rate of force development
Unless you’ve been living under a rock, you’ve likely seen countless videos on social media of athletes lifting big weights. And it’s not just athletes from sports like american football, baseball or hockey. Many athletes across various sports - like long distance running, swimming, volleyball - are lifting weights. We're not referring to light dumbbells but rather heavy loads and big lifts. The question is, why? What’s the rationale behind this type of training? Should tennis players learn from these sports?
I’ve briefly spoken about the importance of strength training for tennis. Some factors include the prevention of injury and increases in serve speed. In this post, we’ll dive deeper into the details of maximum strength training and it's relevance to the elite tennis player. Specifically, we’ll outline how max strength development can impact movement characteristics - including explosiveness, first step ability and acceleration.