2.5mm wire is 6.8 ohms per kilometer, so 0.0068 ohms per meter times 25 meters = 0.17 ohms, so at 10 amps you would lose a little under 2 volts. That is actually noticeable. I've noticed big differences in top speeds with just a few volts drop.
That's an interesting calc, Greg.
I am the President for Life, Chairman, Treasurer, Secretary and sole member of the cooker cable club. When I was getting ready to lay my first garden railroad, I wanted to put a jumper cable half way round (bisecting the circle) and asked a friend (qualified electrically) to calculate what I'd need to avoid voltage drop. I suspect that he provided me the answer from readily available domestic cable sizes, which this side of the pond jump from 2.5mm2 to 6.5mm2 - which is cooker cable.
A number of people pooh-poohed the idea, and one was frantically against it on spurious safety grounds ( he was worried about a subsequent occupier of the house trying to connect a cooker to it
) but I have repeated the practice on my current railroad.
So, while the cooker cable may be over the top - although you certainly won't see a voltage drop - the principle is a good'un
Being a simple person, I worked out that if a bisected the circuit with a jumper cable that produced the full operating voltage half way round, then the track joints have only got to provide good continuity for a quarter of the circle before they meet the stuff coming the other way
So, on my 300 ft of track, the fishplates only have to provide good continuity for 75ft, and as about half the track is 1m flexi lengths (bought second hand) then that's only about 50 joints with about one third being rail clamps - which gives OK track power continuity.
The cooker cable club is always open to new members
