Linear Momentum and Conservation of Energy Question

In summary, linear momentum is a physical quantity that measures an object's motion and is calculated by multiplying its mass by its velocity. It is conserved in isolated systems, meaning the total momentum before an event is equal to the total momentum after the event. This concept has practical applications in various fields, including automotive safety and sports. Linear momentum and energy are closely related, as they both follow the law of conservation of energy.
  • #1
Punkyc7
420
0

Homework Statement


a steel ball of m mass is fastened to light cord of length L and released when the cord is horizontal. At the bottom if its path the ball strikes a hard plastic block of mass M=4m, initially at rest on a frictionless surface. The collision is elastic. Find the speed of the block immediatey after the collision.


Homework Equations


KE+U+W=KEF+UF
m1v1+m2v2=m1v3+m2v4


The Attempt at a Solution


I get the as speed (v1+4v2-v3)/4 but the book gets 2/5√2gL

If anyone can help it would be much appreciated.
 
Last edited:
Physics news on Phys.org
  • #2
I'm getting 2/3*sqrt(2gL). Closer than you, I think!
The first step is the falling ball. Energy will be conserved so you can say
PE at top = KE at bottom
You'll find the velocity of the ball before it hits is sqrt(2gL), which is a good start.

Then do your collision. Both the ball and the block will be moving after the collision so you'll need a v1 and a v2 - two unknowns. You were also given that it is an elastic collision, so kinetic energy is conserved. That gives you two equations with the two unknowns. After subbing one into the other you get a quadratic equation but there is no constant term so it can be common factored.
 
  • #3
So if i plug in sqrt(2gL)for v1 i get m1*sqrt(2gL)=m1v2+4m1v3,
then factor out m1 and that gives you sqrt(2gL)=v2+4v3,
then solve for v3, (sqrt(2gL)-v2)/4, i still don't get 2/5√2gL
 
  • #4
Agree so far. You have two unknowns so you have to have another equation. Use conservation of kinetic energy.
 
  • #5
So how would i go about setting that up would it be .5m(sqrt(2gL))^2=.5mv2^2+.54mv3^2
 
  • #6
Yes. Extra 4 in the last term - should be .5, not .54.
Solve your momentum equation for v2 and sub it into this one to get an equation with only one unknown, v3. Solve the quadratic equation to find it.

I'm signing off for the night. Good luck!
 
  • #7
I think you need the 4 because its four times the mass
 
  • #8
So i plug v2 value into the m1v1=m1v2+4m1v3 and solve for v3,

now i get ((2sqrt(2gL))-(sqrt6mgl))/8

i still think I am off but am i getting closer
 
  • #9
You have two equations:
[1] sqrt(2gL)=v2+4v3 from momentum conservation
[2] .5m(sqrt(2gL))^2=.5mv2^2+.5*4mv3^2 from energy cons.
You want to find v3, so you must solve one equation for v2 and sub into the other to get an equation with only unknown v3. It is easier to solve [1] for v2.

I don't think v3 = ((2sqrt(2gL))-(sqrt6mgl))/8 is correct; units don't match for one thing.
 
  • #10
The equation the book get is v2'=(2m1/m1+4m1)*v1 but I am not sure how they got to that every time i solve it i get something different
 
  • #11
Maybe you should show your work here so I can check it.
The question asks you to find the speed of the block, which you are calling v3, and you say in the first post that the answer is 2/5√2gL. I'm still showing 2/3 instead of 2/5.

No need to find v2 at all. And this v2'=(2m1/m1+4m1)*v1 can't possibly be correct because the m1/m1 term has no units but is added to the 4m1 term which has units of kg.
 
  • #12
Ok so we solve for v and that gets us sqrt(2gL)

Then the book say now we use conservation of Linear momentum and the fact that kinetic energy is conserved to derive expressions for the speeds of the ball and the block immediately after collision. Since the collision is elastic, head on, and the target object is at rest the velocity of the block after collision is v2'=(2m1/m1+4m1)*v1

So that would get you v2'=(2m1/m1+4m1)*sqrt(2gL)= 2/5 sqrt(2gL)

But i don't see how they got to that equation, i follow how you set it up but i don't see how the book gets to the v2' equation
 
  • #13
Okay, looks like what you call v3 is what the book is calling v2.

You have two equations:
[1] sqrt(2gL)=v2+4v3 from momentum conservation
[2] .5m(sqrt(2gL))^2=.5mv2^2+.5*4mv3^2 from energy cons.
Divide all terms by .5m to simplify: (sqrt(2gL))^2=v2^2+4v3^2
square cancels out square root" 2gL = v2^2+4v3^2

Solve [1] for v2: v2 = sqrt(2gL) - 4*v3
Sub in [2]: 2gL = [sqrt(2gL) - 4*v3]^2 + 4v3^2
Now you have an equation with only one unknown, v3 (which the anwwer book calls v2). You have to square that middle term as in
(A+B)^2 = A^2 + 2AB + B^2. Collect like terms and see what your quadratic equation looks like. Might look more familiar if you used "x" instead of "v3".
 
  • #14
Thanks I've got it now, sorry for taking up your time but that problem has been bugging me for a few days
 
  • #15
Most welcome.
 

What is linear momentum?

Linear momentum, also known as momentum, is a physical quantity that measures the motion of an object. It is defined as the product of an object's mass and its velocity. In other words, it is the amount of motion an object possesses.

How is linear momentum calculated?

Linear momentum is calculated by multiplying an object's mass by its velocity. The formula for linear momentum is p = m * v, where p is momentum, m is mass, and v is velocity. The SI unit for momentum is kilogram meters per second (kg·m/s).

What is the conservation of linear momentum?

The conservation of linear momentum is a fundamental law of physics that states that the total momentum of an isolated system remains constant. This means that in a closed system, the total momentum before an event must be equal to the total momentum after the event, as long as there are no external forces acting on the system.

How is the conservation of linear momentum applied in real-life situations?

The conservation of linear momentum has many practical applications in everyday life. For example, it is used in automotive safety to design and test the effectiveness of airbags and seatbelts. It is also essential in sports, such as in the sport of billiards, where the conservation of momentum is used to predict the direction and speed of the balls after they collide.

What is the relationship between linear momentum and energy?

Linear momentum and energy are closely related. The law of conservation of energy states that energy cannot be created or destroyed, only transferred or converted from one form to another. This means that the total energy of a system must remain constant, just like the total momentum. In some cases, energy can be exchanged for momentum, and vice versa, such as in collisions and explosions.

Similar threads

Conservation of Momentum FRQ
    • Introductory Physics Homework Help
Replies
7
Views
378
Conservation of momentum (wrecking ball hits a stationary object)
    • Introductory Physics Homework Help
Replies
10
Views
2K
1999 AP Physics C Mech: Conservation of momentum and energy
    • Introductory Physics Homework Help
Replies
9
Views
388
High School Physics Question -- Skateboarder Jumps & Conservation of Momentum
    • Introductory Physics Homework Help
Replies
3
Views
2K
Solving Elastic Collision of Two Balls: Theory & Solutions
    • Introductory Physics Homework Help
Replies
15
Views
1K
Conservation of momentum (center of mass) in projectile launches
    • Introductory Physics Homework Help
Replies
15
Views
256
A bullet collides perfectly elastically with one end of a rod
    • Introductory Physics Homework Help
Replies
21
Views
1K
Conservation of Linear Momentum of Rigid Body
    • Introductory Physics Homework Help
Replies
3
Views
780
Solving Orbital Speed with Energy & Angular Momentum Conservation
    • Introductory Physics Homework Help
Replies
7
Views
1K
Conservation of energy for a series of elastic collisions
    • Introductory Physics Homework Help
Replies
2
Views
614

Hot Threads

Recent Insights

Back
Top