Final answer:
Without the acceleration value, it's impossible to calculate the force applied to the basketball. If acceleration were provided, one would use Newton's second law of motion (F = ma) to compute the force.
Step-by-step explanation:
To calculate how much force the basketball player must apply to the basketball with a mass of 0.63 kg in order to accelerate it, we use Newton's second law of motion. The law states that the force applied to an object is equal to the mass of the object multiplied by the acceleration (F = ma). However, the question does not provide the acceleration value, making it impossible to calculate the exact force without this information.
If we had the acceleration (a) that the player's action caused on the basketball, the calculation of the force (F) would be straightforward. Assuming that we knew the acceleration, the calculation would look something like this, where 'a' is the acceleration:
F = 0.63 kg * a m/s²
You would then multiply the mass of the basketball by the acceleration to get the force in newtons (N).