Activity for MissMulanâ€
Type | On... | Excerpt | Status | Date |
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Comment | Post #286873 |
Im looking something in the newtonian mechanics region of study which is modeled by a system of ordinary differential equations. (more) |
— | over 1 year ago |
Comment | Post #283395 |
@#8056ts we should make this a new question. (more) |
— | over 2 years ago |
Comment | Post #283395 |
@#8056ts we should make this a new question. (more) |
— | over 2 years ago |
Comment | Post #283395 |
Olin photons can't accelerate like most of the objects because photons always move with one speed for all inertial frames. (more) |
— | over 2 years ago |
Comment | Post #283393 |
But how can we find x(t) from F(r) since they have different arguments? (more) |
— | over 2 years ago |
Comment | Post #283251 |
I will edit the question then (more) |
— | over 2 years ago |
Comment | Post #283251 |
It is an exercise the gravitational field exists only for some r below a limit and a test particle enters somehow(pops into existence) at the edge of the field. (more) |
— | over 2 years ago |
Comment | Post #283251 |
It is a exercise it is not the real deal. The gravitational field only exists for some r below a limit. (more) |
— | over 2 years ago |
Comment | Post #283009 |
I am assuming for simplicity the B field becomes 0 after the particle reaches the end of the wire. (more) |
— | over 2 years ago |
Comment | Post #283258 |
I don't think this has anything to do with physics. (more) |
— | over 2 years ago |
Comment | Post #283251 |
And i have something else in my mind lets just say the initial acceleration is 0. (more) |
— | over 2 years ago |
Comment | Post #283251 |
HDE 226868 you are correct i will edit (more) |
— | over 2 years ago |