How Do Velocities Affect Collision and Proximity in Particle Dynamics?

AI Thread Summary
The discussion focuses on the dynamics of two particles, A and B, with specified velocities and initial positions. The relative position of B to A is derived from their velocities, leading to the conclusion that for a collision to occur, the velocity v must equal 2 m/s. The participants also explore the integration of their motion equations to determine their positions over time, emphasizing the need to account for constants based on initial conditions. The conversation highlights the geometric relationship between the particles' movements and the calculation of their closest approach. Overall, the analysis combines mathematical integration with physical concepts of motion in particle dynamics.
Jastrabik
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1.Two particles A and B have velocities 3i and vj respectively (in m/s).
(a) Find the position of B relative to A for all t given that r (b relative to a)
(t=0) = -9i+6j (in metres).

(b) Find the value of v such that A and B collide.

(c) If v=1 m/s, find the time and distance when A and B are closest together.
3. Well, firstly i drew it out. A= 3i+0j , B=0i+vj. Then I integrated A and B and let it equal to -9i+6j and I got t=3 and v=2. I also got the angle to be 33.69°. I don't know what to do after that of if anything i got is right.
 
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Is that the way the problem statement is stated your textbook?

If particle A is only moving along the x-axis and particle B is only moving along the y-axis, their relative position is always going to be the hypotenuse of a right triangle with a side being a multiple of 3 and another being a multiple of v. Can you figure out what the expression for the position of B relative to A for all t is given their relative position at t=0?
 
Yes, that is the way the problem is stated.

So the relative position is vj-3i ?
 
Jastrabik said:
So the relative position is vj-3i ?
No, that's the relative velocity. You were right to integrate that (I assume v is constant).
But I'm not sure what you meant by this:
I integrated A and B and let it equal to -9i+6j and I got t=3
When you integrate you get an unknown constant, and you have to find the value of that from initial conditions. What general formula did you get for relative position?
 
When I integrate A= 3i , I will get 3ti + constant and B= vj so that it will be vtj + constant. I added the t because, the answer has to be with respect to time. And then I let it equal to -9i+6j= -3ti +vtj

So you mean that relative position is basically + vtj -3ti because its B relative to A.

And from that I can say that v has to be 2 for them to collide, but what about part 3?
 
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Jastrabik said:
When I integrate A= 3i , I will get 3ti + constant and B= vj so that it will be vtj + constant.
Right so far.
then I let it equal to -9i+6j= -3ti +vtj
No. You need to find out what the two constants are. To do that you use the information about the position when t = 0.
 
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