Baseball is one of the sports that require motor skills
Baseball is one of the sports that require motor skills. However, there are different categories of motors skills that a player uses when swinging a bat at a ball that has already been thrown. The first motor skill in action is open motor skills. The presence of oppositional players qualifies the motor skill to be open. The player is expected to react and possibly alter his execution skills against his opponents. If the fielders are at the battler’s right-hand side, the player may hit the left. This can be possible is the player turns his body shape and bat to the left-hand side. This position gives the player a better chance of winning. However, it can also be closed motor skills as the player is standing from a stable stand, and thus he can choose when to hit the ball.
Additionally, hit a baseball would be a gross motor skill. The player is making use of the large muscle. This includes the core, arms, and legs. In order to hit the ball, the player will have to make a number of movements that are not in line with what the players want to do.
Finally, hitting a baseball requires discrete skills because the shot is distinct from the beginning when the player lifts the bat. Likewise, the shot has a distinct ending that the player has to follow through. However, motor skills can change to serial skills if the battle is continuously done for long periods during the game.
Brain’s Flexibility
The brain is able to adapt depending on the arising circumstances. The ability of the brain to capture different information in our environments results in various elements. Thus the brain is organized into different systems for it to interact with its surrounding effectively. Therefore, any changes in the senses occur in the brain, adapting to various conditions.
The abrupt and sudden loss of vision results in significant and reversible modifications in the visual cortex. The brains work to compensate for the deficiency in vision. Thus, the brain is quite flexible and adaptable. As the vision is lost, the brain works to develop new nerve connections quickly. This is usually a gradual process in the visual cortex, but the process changes to cater for the loss of sight.
Similarly, the sudden loss of sight changed the visual cortex in the brain. Brain scans indicated a number of dramatic changes. The visual cortex became more active when responding to touch. Without the loss, there was very negligible activity in the visual cortex. However, with the changes, the visual system immediately starts to process touch.
At the end of the experiment, transcranial magnetic stimulation (TMS) was used to prevent the visual cortex’s functionality, and this affected the ability of the sample to read braille effectively.
The experiment indicates that the brain is quite flexible. In case of any changes in the body, the brain would raise the inhibited functions in the visual cortex and ensure better performance as they are needed. Thus, over time, if the conditions continue, then the adaptive changes would become permanent. It is evident that any sensory loss, such as deafness, would trigger changes in the visual cortex.