Introduction
Both the 357 Magnum and the 10mm Automatic have devotees amongst the fraternity of handgun shooters and, members of each group have reasons why their particular cartridge of choice is preferable. 10mm fans insist that, with full power handloads or boutique ammunition, the auto pistol cartridge churns up more foot-pounds of energy and launches heavier bullets than the mid-bore revolver cartridge. Three-five-seven shooters tout the greater flexibility of their cartridge/gun platform, and the higher sectional density of their long, 170- 180- and 200-grain bullets. Clearly, the 357 Magnum wins the popularity contest, but 10mm shooters are out there as well.
Candidly, when the issue is stopping power or general effectiveness as defensive cartridges or hunting cartridges, the above arguments impress me as nothing more than rationalizations for personal preferences. Penetration and energy figures for the 10mm and 357 Magnum cartridges are so similar that any differences are insignificant for most practical purposes. Equally true is the fact that both cartridges are excellent choices for personal defense with bullets in the 125- to 155-grain weight range. However, in the world of defensive handguns and force-on-force situations, there is one task at which both the 10mm and 357 Magnum outperform other common defensive handgun cartridges. That task is returning fire at long range.
Long-Range Defensive Shooting
Admittedly, the vast majority of self-defense shootings and even police-action shootings take place at ranges measured in feet, not yards. The urban environments where deadly encountered most often occur dictate contact distances. Nevertheless, there are situations where shootings occur at distances greater than normal. For example, here in my home state, we have several counties blessed with gorgeous woodlands that include mountain lakes and streams, and an abundance of good fishing, hunting and camping opportunities. Unfortunately, these counties are also notorious for the huge marijuana fields that are frequently found tucked way back in the mountainous areas. It is not unheard of for unwitting hikers, campers and hunters to stumble unto these fields quite by accident. Given the size of the fields, and the natural surroundings, any resultant firefight with the custodial criminals could involve distances up to 100 yards. Other possibilities are defense of a rural residence or campsite, or recreational boaters taking fire from the shoreline. Again, these are not everyday defensive shooting scenarios, but I would wager real life experiences fitting these examples could be located without excessive research.
It is possible to reliably obtain hits on targets approximating the size of an adult human torso at ranges many shooters would find extreme for typical service and concealed carry handguns. In calibers 9mm, 40 S&W, 45ACP, 38 Special, and others, typical auto pistols and revolvers with 2- to 6-inch barrels can be used against such targets at ranges exceeding 100 yards if the shooter is skilled, the range is certain, and the trajectory of the bullet is known. Handgun metallic silhouette competition confirms that this is true. In silhouette matches, all of the above factors are present, i.e., known distance and known trajectory/sight picture. In addition, the size and shape of the target also are known to the shooter. Under these circumstances, silhouette shooters pound steel targets out to 300 yards with redundancy.
While all of the most popular defensive calibers can reach out past 100 yards, the vagaries of range, trajectory and target size inherent in defensive shooting scenarios, dictate that cartridges capable of minimizing the need for precise distance and target size information, are the most desirable for long range defense. Too, pushing bullets with enough force so that they arrive on target with sufficient energy for the required work is a must. Without question, the 357 Magnum and 10mm are the two flattest shooting, most powerful cartridges widely considered appropriate for concealed carry and duty use, and both cartridges are available chambered in weapons suited to those missions. It seemed appropriate, then, to conduct a simple comparison of the two cartridges, not to determine their relative power levels, but to compare their trajectories out to 100 yards, and get some anecdotal information about how easy or difficult it is to hit with these two powerhouses from point blank range out to 100 yards using a single sight setting.
The Guns and Ammunition
In an attempt to get some uniformity in the launch platforms, we conducted the test using two revolvers rather than the more commonly-seen 357 Magnum revolver and 10mm auto pistol. The guns used were a Dan Wesson 15-2 357 Magnum, and a Smith & Wesson 610 10mm. Both guns have barrels measuring a nominal 4 inches, and both guns have adjustable sights so they were easily adjusted for the initial zero at 25 yards.
In an attempt to maximize the long-range potential of the guns in terms of both trajectory and power, we selected bullets that were towards the upper weight limit for the calibers, but not the heaviest available. In 357 Magnum we loaded a 165-grain lead semi-wadcutter (LSWC) bullet over 13.0 grains of Hercules 2400. In 10mm we used a 180-grain lead truncated cone (LTC) bullet over 8.2 grains of IMR 800X. Cases and primers used were those on hand – WW/Magtech for the 10mm, AP/CCI for the 357 Magnum. Both loads shot to a nominal velocity of 1150fps, with the 357 Magnum shooting just a tad faster than the 10mm.
Test Protocol
Because the majority of armed encounters do occur at spitting distances, we zeroed both revolvers for Point of Aim/Point of Impact (POA/POI) at 25 yards. The front sight of the 610 is about .925 above the centerline of the bore, and the 15-2 has a front sight about .845 above center bore, so differences in point of impact were minimally influenced by the differences in the positions of the sights.
Next we fired the revolvers at 7 yards to see how much hold under or hold over was needed to hit POA with each gun. The 10mm dumped six shots into a tiny cluster about whose center was almost exactly one half inch below the POA. The 357 Magnum grouped give shots into a tight ball one half inch above POA, with the sixth shot landing about an inch high. We’ll call that last shot shooter error.
We fired the guns on the 50-yard line next, this time shooting at a round, steel swinger of 12-inch diameter. The swinger was painted black so that the lead bullet strikes would show up clearly through the spotting scope. At this distance, the 10mm deposited its bullets approximately 2 inches below POA when a center hold was used. The 357 Magnum also grouped about 2 inches below POA at 50 yards.
Finally, we moved the swinger to 100 yards. At this distance, we used a high- noon hold on the 12-inch circle as we expected a significant amount of bullet drop at this distance. The 10mm bullets struck the plate in a vertical line measuring about 8 inches, with a center five to six inches below the POA. The shot pattern had surprisingly little lateral dispersion -- not more than three inches. The 357 Magnum grouped its bullets about 6-7 inches below POA, in a more crescent shaped pattern with little vertical dispersion but more lateral variance.
Impressions and Conclusions
The most significant revelation is that it was fairly easy to hit the 12-inch plate all the way out at 100 yards. A normal, 25-yard zero and a slightly elevated sight picture pretty much guaranteed hits with either handgun as long as windage also was accurately held. The trajectory numbers cited above show pretty clearly that there is no decisive or even significant trajectory difference between the two loads tested when fired from these two revolvers. The apparent 1-inch advantage of the 10mm at 100 yards is likely the result of a slightly higher front sight and not any inherent “flatness” of the cartridge or load tested. To put all of this into perspective, we also fired a Springfield Armory Longslide (6-inch) 1911 in 45ACP at the 100-yard swinger. The 1911 is regulated to place bullets 2 inches above POA at 20 yards when launching 220-grain LSWC bullets at 900fps. To get consistent hits at 6 o’clock on the swinger, a 12 o’clock hold had to be used. This amounts to a 12- to 13-inch drop; roughly double that of the 10mm and 357 Magnum revolvers. The front sight of the 1911 is about .690 above the center of its bore.
The second observation is that both the 357 Magnum and the 10mm Automatic retain impressive energy at 100 yards. The swinger used is 3/8 of an inch thick and is made from A36 mild steel plate. It weighs about 17lbs. Hits with either gun swung the metal disc very convincingly, and the ring of the shots could be heard all the way back to the firing line, even with hearing protection in place. The 45ACP hits, while audible, were of a lower pitch and volume, and did not move the swinger nearly as much. At times, it was difficult to identify exactly where the bullets had impacted the plate after shooting the 45ACP. That was not a problem with either the 10mm or the 357 Magnum.
Is there a winner between the 10mm Automatic and 357 Magnum when it comes to long-rang defense? If this admittedly limited test is indicative of the broader truth, then no clear advantage can be claimed by either cartridge. Fortunately, that does not mean that 10mm Automatic and 357 Magnum are ill suited to the role; they are not. In capable hands, either cartridge will provide surprisingly good hit ratios and impressive power at ranges well past those commonly associated with handgun defense.
Both the 357 Magnum and the 10mm Automatic have devotees amongst the fraternity of handgun shooters and, members of each group have reasons why their particular cartridge of choice is preferable. 10mm fans insist that, with full power handloads or boutique ammunition, the auto pistol cartridge churns up more foot-pounds of energy and launches heavier bullets than the mid-bore revolver cartridge. Three-five-seven shooters tout the greater flexibility of their cartridge/gun platform, and the higher sectional density of their long, 170- 180- and 200-grain bullets. Clearly, the 357 Magnum wins the popularity contest, but 10mm shooters are out there as well.
Candidly, when the issue is stopping power or general effectiveness as defensive cartridges or hunting cartridges, the above arguments impress me as nothing more than rationalizations for personal preferences. Penetration and energy figures for the 10mm and 357 Magnum cartridges are so similar that any differences are insignificant for most practical purposes. Equally true is the fact that both cartridges are excellent choices for personal defense with bullets in the 125- to 155-grain weight range. However, in the world of defensive handguns and force-on-force situations, there is one task at which both the 10mm and 357 Magnum outperform other common defensive handgun cartridges. That task is returning fire at long range.
Long-Range Defensive Shooting
Admittedly, the vast majority of self-defense shootings and even police-action shootings take place at ranges measured in feet, not yards. The urban environments where deadly encountered most often occur dictate contact distances. Nevertheless, there are situations where shootings occur at distances greater than normal. For example, here in my home state, we have several counties blessed with gorgeous woodlands that include mountain lakes and streams, and an abundance of good fishing, hunting and camping opportunities. Unfortunately, these counties are also notorious for the huge marijuana fields that are frequently found tucked way back in the mountainous areas. It is not unheard of for unwitting hikers, campers and hunters to stumble unto these fields quite by accident. Given the size of the fields, and the natural surroundings, any resultant firefight with the custodial criminals could involve distances up to 100 yards. Other possibilities are defense of a rural residence or campsite, or recreational boaters taking fire from the shoreline. Again, these are not everyday defensive shooting scenarios, but I would wager real life experiences fitting these examples could be located without excessive research.
It is possible to reliably obtain hits on targets approximating the size of an adult human torso at ranges many shooters would find extreme for typical service and concealed carry handguns. In calibers 9mm, 40 S&W, 45ACP, 38 Special, and others, typical auto pistols and revolvers with 2- to 6-inch barrels can be used against such targets at ranges exceeding 100 yards if the shooter is skilled, the range is certain, and the trajectory of the bullet is known. Handgun metallic silhouette competition confirms that this is true. In silhouette matches, all of the above factors are present, i.e., known distance and known trajectory/sight picture. In addition, the size and shape of the target also are known to the shooter. Under these circumstances, silhouette shooters pound steel targets out to 300 yards with redundancy.
While all of the most popular defensive calibers can reach out past 100 yards, the vagaries of range, trajectory and target size inherent in defensive shooting scenarios, dictate that cartridges capable of minimizing the need for precise distance and target size information, are the most desirable for long range defense. Too, pushing bullets with enough force so that they arrive on target with sufficient energy for the required work is a must. Without question, the 357 Magnum and 10mm are the two flattest shooting, most powerful cartridges widely considered appropriate for concealed carry and duty use, and both cartridges are available chambered in weapons suited to those missions. It seemed appropriate, then, to conduct a simple comparison of the two cartridges, not to determine their relative power levels, but to compare their trajectories out to 100 yards, and get some anecdotal information about how easy or difficult it is to hit with these two powerhouses from point blank range out to 100 yards using a single sight setting.
The Guns and Ammunition
In an attempt to get some uniformity in the launch platforms, we conducted the test using two revolvers rather than the more commonly-seen 357 Magnum revolver and 10mm auto pistol. The guns used were a Dan Wesson 15-2 357 Magnum, and a Smith & Wesson 610 10mm. Both guns have barrels measuring a nominal 4 inches, and both guns have adjustable sights so they were easily adjusted for the initial zero at 25 yards.
In an attempt to maximize the long-range potential of the guns in terms of both trajectory and power, we selected bullets that were towards the upper weight limit for the calibers, but not the heaviest available. In 357 Magnum we loaded a 165-grain lead semi-wadcutter (LSWC) bullet over 13.0 grains of Hercules 2400. In 10mm we used a 180-grain lead truncated cone (LTC) bullet over 8.2 grains of IMR 800X. Cases and primers used were those on hand – WW/Magtech for the 10mm, AP/CCI for the 357 Magnum. Both loads shot to a nominal velocity of 1150fps, with the 357 Magnum shooting just a tad faster than the 10mm.
Test Protocol
Because the majority of armed encounters do occur at spitting distances, we zeroed both revolvers for Point of Aim/Point of Impact (POA/POI) at 25 yards. The front sight of the 610 is about .925 above the centerline of the bore, and the 15-2 has a front sight about .845 above center bore, so differences in point of impact were minimally influenced by the differences in the positions of the sights.
Next we fired the revolvers at 7 yards to see how much hold under or hold over was needed to hit POA with each gun. The 10mm dumped six shots into a tiny cluster about whose center was almost exactly one half inch below the POA. The 357 Magnum grouped give shots into a tight ball one half inch above POA, with the sixth shot landing about an inch high. We’ll call that last shot shooter error.
We fired the guns on the 50-yard line next, this time shooting at a round, steel swinger of 12-inch diameter. The swinger was painted black so that the lead bullet strikes would show up clearly through the spotting scope. At this distance, the 10mm deposited its bullets approximately 2 inches below POA when a center hold was used. The 357 Magnum also grouped about 2 inches below POA at 50 yards.
Finally, we moved the swinger to 100 yards. At this distance, we used a high- noon hold on the 12-inch circle as we expected a significant amount of bullet drop at this distance. The 10mm bullets struck the plate in a vertical line measuring about 8 inches, with a center five to six inches below the POA. The shot pattern had surprisingly little lateral dispersion -- not more than three inches. The 357 Magnum grouped its bullets about 6-7 inches below POA, in a more crescent shaped pattern with little vertical dispersion but more lateral variance.
Impressions and Conclusions
The most significant revelation is that it was fairly easy to hit the 12-inch plate all the way out at 100 yards. A normal, 25-yard zero and a slightly elevated sight picture pretty much guaranteed hits with either handgun as long as windage also was accurately held. The trajectory numbers cited above show pretty clearly that there is no decisive or even significant trajectory difference between the two loads tested when fired from these two revolvers. The apparent 1-inch advantage of the 10mm at 100 yards is likely the result of a slightly higher front sight and not any inherent “flatness” of the cartridge or load tested. To put all of this into perspective, we also fired a Springfield Armory Longslide (6-inch) 1911 in 45ACP at the 100-yard swinger. The 1911 is regulated to place bullets 2 inches above POA at 20 yards when launching 220-grain LSWC bullets at 900fps. To get consistent hits at 6 o’clock on the swinger, a 12 o’clock hold had to be used. This amounts to a 12- to 13-inch drop; roughly double that of the 10mm and 357 Magnum revolvers. The front sight of the 1911 is about .690 above the center of its bore.
The second observation is that both the 357 Magnum and the 10mm Automatic retain impressive energy at 100 yards. The swinger used is 3/8 of an inch thick and is made from A36 mild steel plate. It weighs about 17lbs. Hits with either gun swung the metal disc very convincingly, and the ring of the shots could be heard all the way back to the firing line, even with hearing protection in place. The 45ACP hits, while audible, were of a lower pitch and volume, and did not move the swinger nearly as much. At times, it was difficult to identify exactly where the bullets had impacted the plate after shooting the 45ACP. That was not a problem with either the 10mm or the 357 Magnum.
Is there a winner between the 10mm Automatic and 357 Magnum when it comes to long-rang defense? If this admittedly limited test is indicative of the broader truth, then no clear advantage can be claimed by either cartridge. Fortunately, that does not mean that 10mm Automatic and 357 Magnum are ill suited to the role; they are not. In capable hands, either cartridge will provide surprisingly good hit ratios and impressive power at ranges well past those commonly associated with handgun defense.