Golf Ball Problem-elastic collision

[ihatephysics7]

Homework Statement

The 176g head of a golf club is moving at 45m/s when it strikes a 46g golf ball and sends it off at 65m/s. Find the final speed of the clubhead after the impact, neglect the mass of the club's shaft.

Homework Equations

No clue.

The Attempt at a Solution

Don't even know.

 

[Dr.D]

I suggest that you forget that it is a golf club and just treat it as a block striking a ball. You have the mass of the block and its initial velocity. You have the mass of the ball and its final velocity. It is a routine impact problem.

 

[thomate1]

I can provide a response to this content by using the principles of elastic collisions and conservation of momentum. In this problem, we can assume that the collision between the golf club head and the golf ball is elastic, meaning that there is no loss of kinetic energy during the collision.

Using the conservation of momentum equation, we can set the initial momentum of the clubhead equal to the final momentum of the clubhead and golf ball combined. This can be written as:

m1v1 = (m1 + m2)v2

Where m1 is the mass of the clubhead, v1 is the initial velocity of the clubhead, m2 is the mass of the golf ball, and v2 is the final velocity of the clubhead and golf ball combined.

Substituting the given values of mass and velocity, we can solve for v2:

(0.176 kg)(45 m/s) = (0.176 kg + 0.046 kg)v2
7.92 kg*m/s = 0.222 kg*v2
v2 = 35.68 m/s

Therefore, the final velocity of the clubhead after the impact is 35.68 m/s.

It is important to note that this solution neglects the mass of the club's shaft, which may have a small effect on the final velocity. Additionally, there may be other factors at play in a real-world scenario, such as air resistance, that could affect the final velocity. However, for the purpose of this problem, the given information is sufficient to calculate the final velocity using the principles of elastic collisions.