RandyD123
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Yes, if you are in free fall and you turn on a flashlight and then let go of it, it will accelerate slightly. However, the operative word here is "slightly", as the force involved is extremely small - it's a good exercise to try calculating it for yourself, but for reasonable assumptions about the size and power of a flashlight I'm getting a micro-Newton or thereabouts, which is well and thoroughly negligible.RandyD123 said:So if I had a flashlight in space and I turned it on, I could see it moving relative to me?
Ummm, shining a light out the back does deplete mass. The required energy has a mass equivalent.sophiecentaur said:Another advantage of light propulsion is that, if you use an on-board torch (X1000000, say), you are imparting momentum to your craft without using up any of its mass which is what always happens with a rocket engine. Even Ion Drive engines end up depleting their mass.
True, in principle but there is a factor of c2 in there somewhere. Not sure where the photon momentum (hc/λ) would affect the effective ratio of ejected mass and ejected photons but the mass defect would still be tiny.jbriggs444 said:Ummm, shining a light out the back does deplete mass. The required energy has a mass equivalent.
Yes, but there is a trade-off. The thrust per unit energy is also tiny.sophiecentaur said:True, in principle but there is a factor of c2 in there somewhere. Not sure where the photon momentum (hc/λ) would affect the effective ratio of ejected mass and ejected photons but the mass defect would still be tiny.