Suppose a soccer player is taking a corner kick. The 0.450 kg ball is launched at 45° from ground level and travels straight across the field (in the y direction in the diagram) until it is contacted by an attacking player's head at a height of 2.0 m above the ground 20.0 m horizontally from the point of the kick. After the header, the ball is travelling at the same speed as just before the header, but it is moving purely horizontally downfield (the x direction in the diagram). What is the impulse delivered to the player's head by the ball during the header? (Ignore the effects of air resistance for this estimate.)
System: Ball as a point particle subject to external influences from the earth (gravity) and the player's head (collision force).
Models: Projectile Motion (One-Dimensional Motion with Constant Velocity in the y direction and One-Dimensional Motion with Constant Acceleration in the z direction) plus Momentum and Impulse.
Approach:
Although we are asked for the impulse acting on the player's head, it is simpler to calculate the impulse delivered to the ball by the player's head and then find the desired quantity using Newton's 3rd Law.
The problem has two parts. First, we use the methods of projectile motion to determine the velocity of the soccer ball immediately prior to the collision. Note that because this problem uses two horizontal coordinates, the projectile motion occurs in the yz plane, with gravity in the – z direction. Choosing the kick to originate from the point (0,0,0) at time t = 0, our givens are:
\begin
[ y_
= 0 ][z_
= 0][y_
= \mbox
][z_
= \mbox
]
[ a_
= -\mbox
^
] \end