# Does a relativistic rocket's combustion slow with time dilation?

If a relativistic rocket travels slower in time, does that mean the actual combustion in the thrusters happens slower and slower from an outside frame of reference? Is this part of what causes a relativistic rocket to lose acceleration from an outside frame of reference? Does this mean that an unfueled ship, such as one with a laser sail or magnetic sail, would be faster, as the propulsion would not happen inside the ship, and thus, not slow with time dilation?

• Sep 6, 2021 at 6:19
• Sep 6, 2021 at 6:39
• FWIW, constant proper acceleration corresponds to an exponential process. See my physics.stackexchange.com/a/345492/123208 for details. Sep 6, 2021 at 9:49

Yes, a vehicle with some constant power in it's rest frame would appear to have lower power from other frames.

Is this part of what causes a relativistic rocket to lose acceleration from an outside frame of reference?

The mechanism doesn't seem to matter to me. If I create a hypothetical vehicle with constant proper acceleration, other observers will not see constant acceleration. It's not necessary to attribute it to slower combustion or anything else. So I would say no, it's not a separate issue.

Does this mean that an unfueled ship, such as one with a laser sail or magnetic sail, would be faster

Now you have a vehicle interacting with something else. As the vehicle picks up speed, it will be moving quickly with respect to that external energy source. It will become more and more difficult to deliver the energy. The laser on your planet delivers constant power on the planet's frame, but progressively less power in the rocket's frame.

• Why would the beam energy received by the ship be less and less if light is the same speed in all frames of reference? Is this because the laser's strength weakens over distance? I have read that laser propulsion could use "Bessel beams, which don't diffract". Would that change anything? Sep 6, 2021 at 19:00
• All frames see light moving at the same speed. But all frames do not see light as having the same energy. Distance does not matter for individual photons. But you can't prevent beams from dispersing (I'm ignoring those losses). Sep 6, 2021 at 19:03

If a relativistic rocket travels slower in time, does that mean the actual combustion in the thrusters happens slower and slower from an outside frame of reference? Is this part of what causes a relativistic rocket to lose acceleration from an outside frame of reference?

Of course. Slow motor does its job slowly. The job of rocket motor is to cause a velocity change delta v to occur, preferably swiftly . $$a= \Delta v / \Delta t$$

Does this mean that an unfueled ship, such as one with a laser sail or magnetic sail, would be faster, as the propulsion would not happen inside the ship, and thus, not slow with time dilation?

Hmmm, If there are lasers floating in space, and those lasers give a spaceship a short push when the ship passes, then the energy that is stored in the lasers gets transferred to the ship in a non-slowed down manner.

It doesn’t matter if the energy that propels the spaceship is from an external source or an internal source. The transfer of momentum between the photon beam either hitting the “sail” or the photon beam leaving the ship’s photonic engine will decrease as the ship approaches light speed because the light will be further and further red shifted until from the ship’s point of view due to the Doppler effect until thr wavelength appears so spread out it is essentially black and can deliver no further energy. If the ship COULD travel at the speed of light, the light from the lasers would never reach the sail and the photons from the engine would never be able to exit the engine. Like at the event horizon of a black hole time would appear to stop and the ship would appear to blink out of existence because any light emitted from the ship would never reach the distant stationary observer just as light from distant parts of the universe moving away from us faster than the speed light will never reach us.