Ancient Claw/Guide
Ancient Claw is largely the best melee weapon that does not require late-game content to obtain.
The Ancient Claw is assembled from the 
fragments that drop only from the 
Pegasus. You need to kill 3333 Pegasi on average to get enough fragments.
The question is then when to farm it and what combat style is the best for it.
To answer these question, we will consider the following builds:
- starter
runecrafting magic, - after-Error creating thumbnail: File missingShip melee,
- after-Error creating thumbnail: File missingVolcanic magic,
- after-Error creating thumbnail: File missingGlacia magic.
These builds were chosen to show the changes that the various drops bring into farming the Pegasus. The ranged builds were not considered because the Pegasus is
and has the highest evasion against
.
In the considered situations, no prayers, potions, or other buffs are enabled unless specified.
The skill levels are given so you can replicate the simulations in the Combat Simulator.
The Auto Eat level is
.
The 
Whale (Perfect) is used as a food of choice.
The ring slot is always occupied with 
Magical Ring. If you can put something else in your ring slot and get into
, chances are you don't need a guide.
Below is the starter runecrafting build.
| Item | DR |
|---|---|
| Fire Expert Wizard Hat
|
5% |
 Fire Expert Wizard Robes
|
5% |
 Fire Expert Wizard Bottoms
|
5% |
 Fire Expert Wizard Boots
|
5% |
 Miolite Shield
|
2% |
 Enchanted Cape
|
0% |
 Amulet of Magic
|
0% |
 Paladin Gloves
|
4% |
 Magic Wand (Powerful)
|
0% |
| Total | 26% |
is used with Combination Runes. All skills are at level 75.
The simulation results are:
- 1335
Ancient runes spent, - 134 whales per hour,
- 43.7 Pegasi per hour or 1.311 fragments per hour on average, meaning the whole grind would take 100/1.311 = 76.3 hours.
However, the food and runes preparation can take a lot of time. The notation and assumptions are the same as in Dragons Den/Guide#Adjusted clear time. We will just count Pegasi instead of dungeons.
[math]\displaystyle{ T_c = 134 * 11 = 1474 }[/math]
[math]\displaystyle{ T_m = (N * 7 * (1 + 2/16 + 2/16) / 16 + N / 16) * 1.3 = N / 16 * (8.75 + 1) * 1.3 = N * 12.675 / 16 }[/math]
[math]\displaystyle{ T_r = N * 9.75 * 2 / 16 = N * 9.75 / 8 }[/math]
[math]\displaystyle{ N = 1335 }[/math]
[math]\displaystyle{ T_m = 1335 * 12.675 / 16 = 1058 }[/math]
[math]\displaystyle{ T_r = 1335 * 9.75 / 8 = 1627 }[/math]
The adjusted time [math]\displaystyle{ A_start = N * 9.75 * 2 / 16 = N * 9.75 / 8 }[/math]
(this is a work-in-progress page. The calculations don't account for fishing, which is being fixed)
