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freefall (1 Viewer)
- Thread starter doodydo
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woah, its accerlerating towards the centre of the earth...
KeypadSDM
B4nn3d
Well technically ...
If you're on the surface of the earth, you're in a non-inertial frame of reference... Hence if you're falling to 1 section of the ground on earth at a constant velocity, you're still accelerating.
Pedanticism aside, yes you're right.
Constip8edSkunk
Joga Bonito
if you putted that way, there are no inertial frames of reference, it being an idealism just like perfect circles squares etc....
KeypadSDM
B4nn3d
Very true. Every object exerts the force of gravity on us, hence there can be no place free from all forces, and hence no inertial frames of reference.Originally posted by Constip8edSkunk
if you putted that way, there are no inertial frames of reference, it being an idealism just like perfect circles squares etc....
Or at least very hard. You'd have to do some pretty freakin massive calculations to figure out the exact acceleration required in the right direction to be in an inertial frame of reference...
CHUDYMASTER
Master of Chudy 'n' Curry
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Gravitational forces are infinite in their expanse, as are all the other known forces. Hence it is IMPOSSIBLE to be in a perfect inertial frame of reference...if such a thing can be said...
CHUDYMASTER
Master of Chudy 'n' Curry
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What exactly do you mean by "locally inertial frame"??? Never heard of that before...
CHUDYMASTER
Master of Chudy 'n' Curry
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but gravitational field strength varies inversely with altitude...And even then, I fail to recognise your argument.
Yes. That's why I called it a ``locally inertial'' frame. The object would be purely inertial in a uniform (non-existent) gravitational field.
Please note that the confusion arises from the fact that Special Relativity considers only a flat Minkowski space-time free of mass and gravity. In such cases, we must employ General Relativity in which space-time is deformed by the presence of mass and energy. This is of course significantly beyond the scope of the HSC syllabus, and as such the question posed by the original poster is very vague indeed.
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thats non-inertial..
inertial would be just sitting in a train where it is travelling at a constant velocity
inertial would be just sitting in a train where it is travelling at a constant velocity
Let person A be enclosed in a lift undergoing free fall. Let person B float in space far away from any mass. There is no experiment that can be performed to distinguish between the frames of A and B. Hence A is inertial.
KeypadSDM
B4nn3d
They could both be non-inertial frames of reference.
careful... alil bit of extra infomation is disastrous... =)
edit: i fink as far as hsc is concerned, yes s/he is in non-inertial frame of reference.
but accordin to this, den every frame can be considered as inertial usin the same arguement??
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