@firefox00
Don't look at RadApo. It's a keplerian apoapsis, not real. You can trust RadPer here (because it's the starting point) but not RadApo.
So, change RadPer to your periapsis (3000km), reduce numbers of orbits to 3 (
In such few steps you will get for RadPer = 3000 something like the script in the attachment. I stopped at 11 orbits.
RMAG at apoapsis here is ~69975 km (check "Command Summary" on Propagate2). But it's for the last 11 orbit. RMAG at periapsis after 11 orbits will be ~3053 km ("Command Summary" on Propagate3).
Don't look at RadApo. It's a keplerian apoapsis, not real. You can trust RadPer here (because it's the starting point) but not RadApo.
So, change RadPer to your periapsis (3000km), reduce numbers of orbits to 3 (
For I = 1:1:3;
), run, apply correction, run again, apply, increase to 4 orbits, run, apply, then 5 orbits, 7 orbits, ... In such few steps you will get for RadPer = 3000 something like the script in the attachment. I stopped at 11 orbits.
RMAG at apoapsis here is ~69975 km (check "Command Summary" on Propagate2). But it's for the last 11 orbit. RMAG at periapsis after 11 orbits will be ~3053 km ("Command Summary" on Propagate3).