Velocity of bowling ball after the collision

In summary, the conversation discusses the collision between a large bowling ball and a single pin, and using the law of conservation of momentum to calculate the velocity of the bowling ball after the collision. The equation MV=mv+Mx is used, where M and m represent the masses and V and v represent the velocities of the bowling ball and pin, respectively. The conversation also emphasizes the importance of using correct units in calculations.
  • #1
MorallyObtuse
45
0
Hi,

I just need this explained, please.

Homework Statement



A large bowling ball of mass 6.0 kg moving with a velocity 3.0ms-1 has ahead on collision with a single pin of mass 0.50 kg.If the pin moves with a velocity of 4.0ms-1,calculate the velocity of bowling ball after the collision.
 
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  • #2
Are you familiar with conservation of momentum?
Momentum is mass times velocity.
The momentum of the system before hand equal the momentum of the system after the collision.

Try some equations with it.
 
  • #3
Redd is absolutelly right:

The law of conservation of momentym states that:

Initial Momentum=Final Momentum

if M=mass of bowl and m=mass of pin, V=velovity of bowl and v=final velocity of pin then:

MV=mv+Mx where: x=final velovity of bowl.

Substitute values to get x.
Remember about units,
good luck.
 

Related to Velocity of bowling ball after the collision

What is the definition of "velocity of bowling ball after the collision"?

The velocity of a bowling ball after a collision refers to its speed and direction of motion immediately after it has collided with another object or surface.

What factors affect the velocity of a bowling ball after a collision?

The velocity of a bowling ball after a collision is affected by the mass and velocity of the ball before the collision, as well as the mass and velocity of the object it collides with. Other factors such as the elasticity of the collision and any external forces can also impact the final velocity.

How is the velocity of a bowling ball after a collision calculated?

The velocity of a bowling ball after a collision can be calculated using the principles of conservation of momentum and energy. This involves taking into account the initial velocities and masses of the objects involved, as well as any changes in energy due to the collision.

Why is the velocity of a bowling ball after a collision important to understand?

The velocity of a bowling ball after a collision is important to understand because it can help predict the outcome of a collision and determine any potential damage or impact. It is also a key concept in understanding the laws of physics and how they apply to real-world scenarios.

Can the velocity of a bowling ball after a collision be controlled or manipulated?

Yes, the velocity of a bowling ball after a collision can be controlled or manipulated by changing the initial velocity, mass, and other factors before the collision. Other external factors such as friction and air resistance can also be adjusted to affect the final velocity.

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