A, that all pellets will have enough strength to kill if they only hit the body, and in direct line for a vital.

B, that only the fastest pellets in the load will have enough strength to kill by body shots, and that at least half the pellets will only have enough strength to kill if they hit head, neck, or wing.

C, that none of the pellets will kill by body wounds, but only the small number that chance to hit head, neck, or wing.

The pellets that come under the description applied to C can be greatly extended beyond the distances named, and at ranges to which it would be foolish to apply the term “killing circles.” Thus the author has seen a roe deer killed at 60 yards with No. 6 shot from a 12 bore. Lord Walsingham has made four consecutive shots with No. 5 shot at wild ducks at an average range of about 88 yards, or, to be accurate, at 84½ yards, 89 yards, 84 yards, and 114 yards. But these lucky shots in vital spots do not affect the question, except to show that it is difficult to apply a limit to the killing power of even weak pellets when they strike head, neck, or wing. Outside the zone marked A one is certain to do some wounding without killing the game, but although many pellets will hit without being straight for vital spots, others will probably kill the same bird. But in the C zone it is always two or three chances on wounding to one chance of killing.

The reason for attempting to draw a distinctive line between these zones for the different guns and loads is that there is far too much unhealthy, random shooting at game, which gives rise to prolonged agony, while the sportsman is dining well, and, as he believes, sleeping the sleep of the just. Even on the baser score of economy and next year’s sport, it is wise to wound no more game than human blundering compels, and not to lay ourselves out to wound by attempting to kill when the chances are so bad that the wild shooter would not risk them upon a horse-race, much less in a mere commercial speculation.

There has often been controversy on the difference of penetration from a choke bore and a cylinder. When penetration was taken by recording the number of sheets of paper, or boards, pierced by one pellet, or even by three, the choke bore always won. But really this was merely a double counting of pattern, because when two guns shoot with the same velocity of shot, that which has the best pattern will also have most pellets through. That is how it came to be settled by the public London gun trials that choke bores had materially the most penetration. As a matter of fact, nobody knows which has most penetration. Sometimes the number of sheets pierced by half the shot which hit a penetration testing pad will be in favour of one, and sometimes of the other gun, and moreover the difference in piercing by the pellets of the same discharge may be as much as two to one.

Chronographic testing for time over a range has never proved very satisfactory, for the instrument makes but one record of time for 300 different pellets, which are known to vary in velocity over some ranges by 300 foot-seconds, and in striking velocity by 200 foot-seconds.

This was brought out by the late Mr. Griffith, who as manager of the Schultze gunpowder works had great opportunities, and took them. Powder-makers may very well use the chronograph in testing powders at 10 yards range. At this range Mr. Borland of the E.C. Company informed the writer that he could never find a difference between small shot and large pellets; which goes to prove that at the distance they have not scattered longitudinally enough to make the chronograph the absurdity it becomes when it records one time for 300, all various.

But once the chronograph was used for small shot on the right principle. This was when Mr. Griffith applied it to his revolving target experiments.