Persistence of Relationships in Inertial Frame R

imy786
Messages
321
Reaction score
0

Homework Statement



An inertial frame R in which the particles’ positions and velocities are related by

A1= - m2 (A2) / m1


V1 = - m2(V2) / m1

at time t = 0. Show that these relationships persist at all subsequent times.

Homework Equations





The Attempt at a Solution



dont know how to start
 
Physics news on Phys.org
imy786 said:

Homework Statement



An inertial frame R in which the particles’ positions and velocities are related by

A1= - m2 (A2) / m1


V1 = - m2(V2) / m1

at time t = 0. Show that these relationships persist at all subsequent times.
There are no external forces acting on the particles. You can apply Newton's Third law to each particle. There are two possibilities to analyse: 1. there is no change in particle 1 speed and 2. there is a change.

If there is no change in V1, the solution is trivial: V2 cannot change. What does this say about A1 and A2? (dA1/dt = V1)

If particle 1 experiences a change in velocity dV1, what change in velocity must particle 2 experience (Newton's third law)? After the change, what is the relationship between V1 and V2? Between A1 and A2?

AM
 
well if V1 is constant then A2=0
if V2 also remains constant then A2 = 0

is this right...
and how do i shows that these relationships persist all subsequaent times?
 
imy786 said:
well if V1 is constant then A2=0
if V2 also remains constant then A2 = 0
I think you meant "if V1 = constant then A1 = 0.

We are assuming that the only two bodies here are M1 and M2. This means that if there is a force on M1 there must be an equal and opposite force on M2 (Newton's third law), so F1 = M1A1 = - F2 = -M2A2, ==> (1): A1 = -M2A2/M1

If V1 is constant, then A1 =0. If A1 = 0 then from (1): A2 = 0 and V2 is constant. Thus if V1 = M2V2/M1 at time t and V1 is the same for all time and V2 is the same for all time, then the equation is true for all time.

Now the trickier one is to show that if V1 is not constant for a time dt, that the relationship V1 + dV1 = M2(V2+dV2)/M1 holds after time dt. What is the relationship between dV1, A1 and dt? Between dV2, A2 and dt? Are the dt the same for M1 and M2? How do we know (think Newton's laws).

AM
 
Last edited:

Thread 'Initial conditions for orbits around a wormhole'

Hi, I had an exam and I completely messed up a problem. Especially one part which was necessary for the rest of the problem. Basically, I have a wormhole metric: $$(ds)^2 = -(dt)^2 + (dr)^2 + (r^2 + b^2)( (d\theta)^2 + sin^2 \theta (d\phi)^2 )$$ Where ##b=1## with an orbit only in the equatorial plane. We also know from the question that the orbit must satisfy this relationship: $$\varepsilon = \frac{1}{2} (\frac{dr}{d\tau})^2 + V_{eff}(r)$$ Ultimately, I was tasked to find the initial...
View full post »

Thread 'Help to convert units of a simple formula'

The value of H equals ## 10^{3}## in natural units, According to : https://en.wikipedia.org/wiki/Natural_units, ## t \sim 10^{-21} sec = 10^{21} Hz ##, and since ## \text{GeV} \sim 10^{24} \text{Hz } ##, ## GeV \sim 10^{24} \times 10^{-21} = 10^3 ## in natural units. So is this conversion correct? Also in the above formula, can I convert H to that natural units , since it’s a constant, while keeping k in Hz ?
View full post »

Similar threads

Why is velocity in body fixed frame equals to angular veloc?
Replies
1
Views
3K
Man walking on a rotating merry-go-round
Replies
16
Views
3K
Inertial frame where rods have same length
Replies
4
Views
2K
I Synchronizing clocks in an inertial frame if light is anisotropic
2
Replies
65
Views
1K
Derive the terrestrial equation of motion in the body-fixed frame
Replies
1
Views
2K
Bead on a loop in a non-inertial frame
Replies
1
Views
2K
Law of inertia (inertial observer and inertial frames of reference)
Replies
2
Views
1K
Position of particle in inertial reference frame
Replies
3
Views
2K
Mass Transfer in a Binary Star System
Replies
2
Views
2K
Transforming Stress-Energy Tensors in Different Frames
Replies
5
Views
3K

Hot Threads

Recent Insights

Back
Top