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Franklin Weston Mann (1856–1916) was an American physician and inventor best remembered for this pioneering small-arms ballistics text. This classic is organized as follows: Part I. The Old .44 Muzzle-loading Rifle The F. Wesson .32, Rim-fire Rifle The Stevens Taper-chamber Rifle Some Experimental Ballets Incidental Questions Winchester Ballard, 36-inch Barrel Winchester Ballard, 30-inch Barrel Winchester-Ballard, 20-inch Barrel Pope-cut Special .38-Caliber Auxiliary Chamber, .33-Caliber Rifle Shooting Braces Pope Ballard, 28-Caliber A Woodchuck Experience Reflections The Personal Element vs. Mechanical Rifle Shooting Boss-Pope .32-Caliber, Second Hand Testing Muzzle Blast A “Shooting Gibraltar.” Bullet Press or Nutcracker Testing Bullets. Snow Shooting Recovering Bullets from Oiled Sawdust Short-barrel Shooting Short Barrels become Interesting Short-barrel Experiments Continued Where the Upset Occurs Boss-Pope .32-Caliber Continued The Pope Breech Loader, .25-Caliber Muzzle Loader, Pope .32-caliber Letter to Dr. Skinner Pope 1902 .32 Rifle. Compliments for Mr. Pope Pope Muzzle Loading System The Five-Shot Group The “Lucky” Group Dr. Skinner’s Shooting Range, and a Disappointment 12-inch Barrel Experiments Smooth Bore, .32-Caliber Vented Barrel, Pope Utility of Vented Barrels The Whizzer Reflections upon Black Powder and Cast Bullets Telescope Mounts; an Invention Accurate Fixed Ammunition Difficult Trouble with Smokeless and Rifle Bores Burned Rifle Bores vs. Smokeless vs. Primers A .28-9 Barrel, 1904 Discarding Two .28-8, 1905 Barrels Remodeling a Rifle. Experimental Shells Reflections; Pipestem Rifles and Jacketed Ballets Ammonia vs. Primer Acid Figures 8 and 9 shot with 28 grains powder Figure 10, unshot bullet similar to 7 24-inch 7 mm. Barrel Metal Jackets, Short Barrels, .25-caliber Figures 4 and 5 from an 8-inch one Figures 6 and 7 from an inch barrel Special .25-36 Marlin, 14-inch Pitch Mirage vs Telescope Space covered by Cross Hairs of Telescope Distance Measuring with Scope Conveniences Superiority of Bore-diameter Bullet Discussed Flight of Bullets; Screen Shooting Comparative 100 vs. 200 Yard Butts Plank and Screens Unbalanced or Mutilated Bullets Gyration and Oscillation A Spinning Bullet Tipping Bullets Deceptive Bullet Tip Correcting Measurements Flight of a Bullet Measuring Wind Drift Motions executed by Normal Flying Bullets Trajectory Deflection More Reflections Cause of x-Error Located Cause of y-Error Located x + y = 80%. The Rifleman’s Rainbow x and y Epitomized Unbalanced Bullets; how Produced Difficulties with Rifle Twists Part II. Verification y-error disclosed by Plank Shooting Cause of y Illustrated Cause of x and y Disclosed at Muzzle Success comes; y-error stands alone Bullets Oscillate about Center of Gravity y-error stands alone Cylinder Bullets do Stunts Driving Tacks with Bullets Illustrated x-error Jacketed Ballets throw Melted Lead Plank Shooting, Service Rifle Paper Plank Experiments. Tube Shooting Determining Rifle Twist Plank Shooting, Spherical Bullets Cause of Excessive Tips Disclosed Part III. Mathematics of x and y Heavy Ordnance The Spitzer Metal-cased Bullet The Spitzer Bullet Straightens Up Kinetics of Spin Stripping the Grooves
This Is A New Release Of The Original 1909 Edition.
People have long been shooting small stones and carefully rounded bullets of clay, glass, steel, and lead from weapons without using gunpowder. And the bow and arrow has been man's choice all over the world and throughout history at times when modern firearms have been unavailable or unsuitable. In America, there is currently an explosion of interest in making primitive archery tackle--wooden bows, flint arrowheads, natural fiber strings. The author has made and shot flint-tipped arrows from many bows of his own making. He first noticed, twenty years ago, that no one has written a book on catapults, and started to keep records of his own experiments in that and other related fields, leading to this book, which explores many of the ways, old and new, in which people have shot bullets by force of their own muscles.
David slew Goliath with his slingshot: for millennia that was the norm, as men used a variety of non-explosive weapons to fire small stones and carefully rounded bullets of clay, glass, and even steel and lead. This unusual study explores in practical detail the many ways, old and new, in which man shot projectiles without recourse to gunpowder. They include the bow and arrow, a favorite for the last 10,000 years; pump-up air guns; blowpipes; catapults; and homemade lead musketballs. There's information on ammunition and velocity, as well as a lively personal narrative filled with humor and the spirit of experimentation.
Handgun enthusiasts, gun-owning do-it-yourself, law enforcement officials, and gunsmiths here is the ultimate one-volume guide to acquiring and developing all the necessary skills for making pistol repairs at home, from helpful hints on work space and setting up a small shop, to the tools needed and how to use them properly, to welding, hardening, and gun finishing. All this valuable information, plus much more, is contained in this easy-to-use reference for handgun aficionados.
Shooting Incident Reconstruction, Third Edition, offers a thorough explanation of matters from simple to complex to help the reader understand the factors surrounding ballistics, trajectory, and shooting scenes. Forensic scientists, law enforcement, and crime scene investigators are often tasked with reconstruction of events based on crime scene evidence, along with the subsequent analysis of that evidence. The use and misuse of firearms to perpetrate crimes from theft to murder necessitates numerous invitations to reconstruct shooting incidents. The discharge of firearms and the behavior of projectiles create many forms of physical evidence that, through proper testing and interpretation by a skilled forensic scientist, can establish what did and what did not occur. Written by the world's most well-respected shooting scene and ballistics experts, the book addresses the terminology, science, and factors involved in reconstructing shooting incident events to solve forensic cases. It covers the full range of related topics including: the range from which a firearm was discharged; the sequence of shots in a multiple discharge shooting incident; the position of a firearm at the moment of discharge; and the position of a victim at the moment of impact. The probable flight path of a projectile and the manner in which a firearm was discharged are also discussed. Case studies illustrate real-world application of technical concepts, supported by over 200 full-color diagrams and photographs. This book will be of value to practicing forensic scientists (firearm and toolmark examiners), ballistics experts, crime scene personnel, police departments, forensic consultants (generalists), attorneys and judges, medical examiners (coroners), and forensic pathologists. - New chapters on special reconstructive properties and value of shootings involving sub-machine guns or pseudo automatic firearms, rate of fire with special attention on shot-to-shot time intervals, human factors in shooting incidents - Updated and revised glossary terms to fit with new technology and the emergence of standardization of terms by groups such as the Organization of Scientific Advisory Committees - Provides clear practice standards and ethical guidelines for those involved in reconstructing shooting scenes