J
JasonSB
Guest
No. There was a train travelling at exactly 2 km/h below the speed of light. That’s a fixed velocity – no acceration. Implicit in that statement is the idea that it is travelling at exactly 2 km/h below the speed of light relative to some inertial reference frame, because velocity always has to be measured relative to something. This means, for example, that the train could well have been stopped at a train station and the inertial reference frame in question was attached to an observer travelling at exactly 2 km/h below the speed of light in the opposite direction. It doesn’t matter. It’s all relative, remember?Actually no.
I need only to read your statement and assign truths or falsehoods, as we know them.
Truth: Did the problem contain objects of mass said to be accelerating at speed of light? Yes.
There was also a passenger walking at exactly 4 km/h from the back of the train to the front of the train. The “exactly 4 km/h” part was meant to convey that their reference frame was inertial as well. How they came to be travelling at 4 km/h with respect to the train’s reference frame is outside the scope of the example. They could have been walking along the platform and stepped onboard the stationary train at the rear of the train and kept walking at the same speed all the way along it. This wouldn’t change the fact that the speed of that passenger as measured by the observer travelling at exactly 2 km/h below the speed of light in the opposite direction is still below the speed of light, despite the fact that the observer measures the speed of the train relative to them to be 2 km/h below the speed of light and the passenger measures his speed relative to the train to be 4 km/h and travelling in the opposite direction to the aforementioned observer.
The problem is that it doesn’t apply because there was no mention of acceleration in the example, as I already said.Truth: Objects of mass can not accelerate at speed of light. this is ALL I need to know. I don’t even need to know why ].
Truth: I need nothing more than to state this.
Sigh…Truth: The statement, as written, would be false.
Of course the statement is false.
The scenario I described is a very simple and well-known illustration of velocity addition. I never mentioned acceleration. I deliberately chose inertial reference frames to keep it simple.
I can’t believe that I even have to explain this. I didn’t, for one minute, think that you would actually misunderstand the theory and we would have to argue about why the statement is false.
The point of the example was to show that if you were to use common-sense arguments about how velocities should add to “prove” that Relativity was wrong and that scientists were stupid, and I was unable to convince you why the common-sense argument was wrong, it would in no way prove that scientists are stupid for not knowing common-sense things.
As I said, Suppose kimmielittle responded by observing…. It was a hypothetical situation to illustrate a problem and it makes no difference what you actually would have responded in those circumstances.And your analogy would be wrong, as I’ve shown…kimmie would not have responded that way, with knowledge of that one law, as we know it. Objects of mass can not accelerate at the speed of light.
The fact that you actually seem to think that the passenger is incapable of walking forward on the train at 4 m/s with respect to the train’s inertial reference frame is just a happy coincidence.