RichyB said:
Ummm, as far as I understand it something moves through space at the same speed forever unless its path is altered by another force? I'm new to this I'm sorry if it's a stupid question.
Correct, although this is true in non-relativistic mechanics. In relativistic mechanics, there is the possibility of the existence of massless particles, such as the photons. It may be shown that the parallel and perpendicular accelerations of a massless particle subject to a force
F is:
<br />
\mathbf{a}_{\|} = \frac{c^2}{E} \, \left(\frac{m c^2}{E} \right)^{2} \, \mathbf{F}_{\|}<br />
<br />
\mathbf{a}_{\bot} = \frac{c^2}{E} \, \mathbf{F}_{\bot}<br />
where E = c \, \sqrt{p^2 + (m c)^2} is the relativistic energy of the particle, and
m is the rest mass. It is easily seen that massless particles do not feel any parallel acceleration (since their speed is always
c), but the radius of curvature of the trajectory is given by:
<br />
\frac{c^2}{R} = \frac{c^2}{E} \, F_{\bot} \Rightarrow \frac{1}{R} = \frac{F_{\bot}}{E}<br />
But, for photons, I don't know what force may act on them, since they are uncharged. You cannot use the above formulae for a gravitational field, since they are derived in special relativity.
RichyB said:
But as I think about it, the Earth, fundamentally moving through space because of energy is received from some other place, like...maybe it gained momentum from the gravity of something and swung off into space?
But light isn't gaining momentum from anywhere there's no force that initially accelerated it is it?
I'm not sure
The photon gains momentum and energy in the process of its emission, and keeps it until absorbed.
