North Korea has announced booster-stage drop areas for its upcoming satellite launch. They earlier said they want to launch satellites to sun-synchronous 97 degree orbit, but the second stage drop zone would indicate a 73 degree orbit.
Three scenarios have been proposed:
Second stage changes direction prior to burn; stage 3 in line with stage 2, 73 deg orbit. (me)
Restartable second stage changes direction after main burn; makes second burn to reach 73 deg; third stage in line with first stage direction; 97 deg orbit. (Credit: Marco Langbroek ).
Second stage changes direction prior to burn; third stage further changes direction prior to its burn; 97 deg orbit, but with orbital plane further east. (Credit:Bob Christy and @LH2NHI )
Here is a more detailed breakdown:
| Scenario | A | B | C |
|---|---|---|---|
| Event | |||
| Stage 1 burnout and sep | Stage 1 burnout and sep | Stage 1 burnout and sep | |
| Fairing sep | Fairing sep | Fairing sep | |
| Stage 2 yaw 24 deg | Stage 2 yaw 17 deg | Stage 2 yaw 24 deg? | |
| Stage 2 burn | Stage 2 burn | Stage 2 burn | |
| Stage 2 yaw 45 deg | |||
| Stage 2 sep from 3 | Stage 2 sep from 3 | Stage 2 sep from 3 | |
| Stage 2 yaw 90 deg | |||
| Stage 2 restart 1.9 km/s | |||
| Stage 3 burn 3.6 km/s | Stage 3 burn 3.6 km/s | Stage 3 burn 4.2 km/s | |
| Stage 3 sep from payload | Stage 3 sep from payload | Stage 3 sep from payload | |
| 1st S Eq Crossing | 132E | 118E | 122E |
| dV relative to A | 0.0 | 1.9 | 0.6 km/s |
| Impulse relative to A | 0.0 | 1.9 x M2 | 0.6 km/s x M3 |
Note that scenario B involves a much larger impulse (big delta-V on the massive stage 2) compared to C (smaller delta-V on the much less massive stage 3).