Is it not true that as radius increases, orbital velocity decreases?
and to find orbital velocity it is = length of orbit (2.pi.r) / period.
Because for some reason my results happen in the opposite way, as my radius increases, my orbital velocity also increases...?
so i gathered my results were dodgy, but now on this sheet with results already on it, i get the same trend... so can some1 explain?
Is it also possible to use keplers law, to check something?
for example, put r^3 / T^2 and it should be some constant for all of them?
If that works, i got a constant of, 0.015625 and 0.03786.... which seems quite close, or should they be exactly the same?
If what im saying makes no sense to anyone, i am willing to write up the table, so some1 can explain, but since the table is quite big, i havent done that.
Thanks. I'll be back on 2moro at about 4ish.
and to find orbital velocity it is = length of orbit (2.pi.r) / period.
Because for some reason my results happen in the opposite way, as my radius increases, my orbital velocity also increases...?
so i gathered my results were dodgy, but now on this sheet with results already on it, i get the same trend... so can some1 explain?
Is it also possible to use keplers law, to check something?
for example, put r^3 / T^2 and it should be some constant for all of them?
If that works, i got a constant of, 0.015625 and 0.03786.... which seems quite close, or should they be exactly the same?
If what im saying makes no sense to anyone, i am willing to write up the table, so some1 can explain, but since the table is quite big, i havent done that.
Thanks. I'll be back on 2moro at about 4ish.