Conservation of Momentum in a Two-Pendulum Collision

  • Thread starter Thread starter Eternal Ophidian
  • Start date Start date
  • Tags Tags
    Momentum Pendulum
AI Thread Summary
The discussion focuses on solving a physics problem involving two pendulums colliding and sticking together. The initial setup includes one pendulum with mass m and another with mass 3m, with the first pendulum released from a 45° angle. To determine the maximum angle after the collision, the conservation of momentum is applied to find the velocity of the combined mass post-collision. The proposed solution involves calculating the maximum angle using the formula arccos[(30 + sqrt(2))/32], resulting in approximately 79.0 degrees. The key to solving the problem lies in correctly applying the conservation of momentum principle.
Eternal Ophidian
Messages
1
Reaction score
0
I have to solve this problem but every answer I've come up with so far has been wrong. If anyone knows how to solve it, I'd greatly appreciate some enlightenment. Thanks.
Here's the question:
Two pendulums are hung adjacent to each other as shown in Fig. 7.20. Bob 1 has a mass m, and bob 2 has a mass 3m. Bob 1 is pulled aside until the support string makes an angle of 45° with the vertical direction and then is released. When the bobs collide, they stick together. What is the maximum angle made by the support strings with respect to the vertical after the collision?
 
Physics news on Phys.org
is the answer

arccos [ [30 + sqrt(2)] / 32 ]
= arccos [ 0.9817 ]
= 79.0 degrees?
 
In order to find the maximum angle that the two balls rise to, you need to know the velcoity of the two balls after the collision. This is easy to find using conservation of momentum
m1v1+m2v2=(m1+m2)v'
One of the balls is initially at rest, so the problem is even easier.
m1v1=(m1+m2)v'
 

Thread 'Rolling without slipping on a curved surface'

Kindly see the attached pdf. My attempt to solve it, is in it. I'm wondering if my solution is right. My idea is this: At any point of time, the ball may be assumed to be at an incline which is at an angle of θ(kindly see both the pics in the pdf file). The value of θ will continuously change and so will the value of friction. I'm not able to figure out, why my solution is wrong, if it is wrong .
View full post »
Thread 'Correct statement about a reservoir with an outlet pipe'

Thread 'Correct statement about a reservoir with an outlet pipe'

The answer to this question is statements (ii) and (iv) are correct. (i) This is FALSE because the speed of water in the tap is greater than speed at the water surface (ii) I don't even understand this statement. What does the "seal" part have to do with water flowing out? Won't the water still flow out through the tap until the tank is empty whether the reservoir is sealed or not? (iii) In my opinion, this statement would be correct. Increasing the gravitational potential energy of the...
View full post »
Thread 'A bead-mass oscillatory system problem'

Thread 'A bead-mass oscillatory system problem'

I can't figure out how to find the velocity of the particle at 37 degrees. Basically the bead moves with velocity towards right let's call it v1. The particle moves with some velocity v2. In frame of the bead, the particle is performing circular motion. So v of particle wrt bead would be perpendicular to the string. But how would I find the velocity of particle in ground frame? I tried using vectors to figure it out and the angle is coming out to be extremely long. One equation is by work...
View full post »

Similar threads

Work done on a conical pendulum
Replies
3
Views
2K
Is the Angular Momentum of a Pendulum Conserved?
Replies
5
Views
6K
Tension in string for a bob pendulum
Replies
11
Views
5K
Differential Equation for a Pendulum
Replies
21
Views
2K
Collision of a bullet on a rod-string system: query
2
Replies
71
Views
2K
To what extent does this system behave as a pendulum?
Replies
1
Views
910
Rotational Motion of a pendulum
Replies
6
Views
5K
Calculate the speed and angle of the center of mass before a collision
Replies
3
Views
923
Foucault Pendulum at the North Pole
Replies
9
Views
2K
LAB: Ballistic Pendulum + Conservation of Momentum
Replies
3
Views
6K

Hot Threads

Recent Insights

Back
Top