modernised MIG 21 with F 35 ENGINE THE BEST AIM-9s and AIM-120s and Meteor missiles and a B -29-52M that can drop 1000 JDAM pound bombs the size of 500 pound bombs using advanced explosive compaction techniques and 1 mega bomb that is the same devastating explosion of a fertilizer factory exploding
basically there are 3 loadouts Weapon masses used: AGM-65D = 220 kg; AIM-9 = 85 kg; AIM-120 = 160 kg; GBU-24 = 907 kg; Mk-82 = 227 kg. Loadout A — Heavy strike (AGM-65s + two GBU-24s) 6 × AGM-65D = 6 × 220 = 1,320 kg 2 × GBU-24 = 2 × 907 = 1,814 kg Pilot = 90 kg Total payload = 1,320 + 1,814 + 90 = 3,224 kg Remaining useful load for fuel & pods = 3,905 − 3,224 = 681 kg (very small fuel reserve — not viable for practical mission radius unless extremely short-range or massive external fuel added / MTOW increased). Conclusion: Carrying 6 Mavericks and 2 GBU-24s together would just fit within the 13,500 kg MTOW envelope but leaves almost no fuel. That means either much higher MTOW or a redesigned airframe with significantly more fuel capacity (or you accept tiny range). Loadout B — Multi-role (AGM-65s + AAMs — a practical compromise) 6 × AGM-65D = 1,320 kg 4 × AIM-9 = 4 × 85 = 340 kg 2 × AIM-120 = 2 × 160 = 320 kg Pilot = 90 kg Total payload = 1,320 + 340 + 320 + 90 = 2,070 kg Remaining for fuel & other systems = 3,905 − 2,070 = 1,835 kg — a workable amount for fuel and mission systems. This is a realistic multi-role loadout. Loadout C — Bombing (mixed bombs + AAMs) 4 × Mk-82 = 4 × 227 = 908 kg 2 × AIM-120 = 320 kg 2 × AIM-9 = 170 kg Pilot = 90 kg Total payload = 908 + 320 + 170 + 90 = 1,488 kg Remaining for fuel & systems = 3,905 − 1,488 = 2,417 kg — very comfortable for decent range. This is a practical bomb-load configuration. (yes i did work with chat gpt to help me make something beautiful) and then you also have the B2952M a bomber that can either drop 140 500 pound bombs or 1 28,000 pound bomb
