How to Calculate Speed and Direction After Collision of Two Billiard Balls
The initial conditions of the two billiard balls before the head-on collision can be summarized as follows:
Mass of billiard ball A: 170 g
Mass of billiard ball B: 170 g
Initial velocity of billiard ball A: 8 m/s eastward
Initial velocity of billiard ball B: 2 m/s westward
When two billiard balls of equal mass collide head-on along the same line, the momentum of the system is conserved. This means that the total momentum before the collision is equal to the total momentum after the collision. To calculate the speed and direction of each ball after the collision, we can use the principle of conservation of momentum.
Step 1: Calculate the total momentum before the collision
Since the initial velocities of the balls are in opposite directions, we need to consider the direction as positive or negative. Let's take eastward as positive and westward as negative:
Total momentum before collision = (mass of A x velocity of A) + (mass of B x velocity of B)
Total momentum before collision = (0.17 kg x 8 m/s) + (0.17 kg x (-2 m/s))
Total momentum before collision = 1.36 kg m/s - 0.34 kg m/s
Total momentum before collision = 1.02 kg m/s
Step 2: Calculate the total momentum after the collision
Since the collision is elastic, the total momentum after the collision will also be 1.02 kg m/s as momentum is conserved in the absence of external forces.
Step 3: Calculate the speed and direction of each ball after the collision
Let the velocities of the balls after the collision be VA and VB. According to the conservation of momentum:
(mass of A x VA) + (mass of B x VB
(0.17 kg x VA) + (0.17 kg x VB
Given that VA and VB have opposite signs as they are moving in opposite directions, the speeds after the collision are: Speed of ball A after collision = 1.02 kg m/s / 0.17 kg = 6 m/s eastward Speed of ball B after collision = 1.02 kg m/s / 0.17 kg = 6 m/s westward Therefore, after the head-on collision, billiard ball A will be moving eastward at 6 m/s and billiard ball B will be moving westward at 6 m/s.