The Smith & Wesson M&P9 M2.0 PC Competitor is a high-performance semi-automatic pistol designed for competitive shooting and tactical applications. Featuring a 5-inch barrel, this firearm offers a balanced combination of accuracy and maneuverability, making it suitable for both professional and recreational shooters. The pistol’s lightweight aluminum frame, combined with a durable bi-tone gray finish, ensures a comfortable grip and corrosion resistance for extended use. Its fiber optic sights provide quick target acquisition in various lighting conditions, enhancing shooting precision. Equipped with four 17-round magazines, this firearm offers ample capacity for rigorous training or competition scenarios, reducing the need for frequent reloads. The grip material is polymer, providing a secure hold, while the absence of a thumb safety simplifies operation for rapid shooting situations. The firearm’s optic footprint is compatible with Shield/RMSc optics, allowing for customizable sighting options. The M&P9 M2.0 PC Competitor’s design emphasizes reliability and ease of use, making it an excellent choice for serious shooters seeking a versatile, high-quality handgun.
Features:
- Caliber: 9mm Luger for versatile, widely available ammunition
- Barrel Length: 5 inches for optimal accuracy and control
- Magazine Capacity: 17 rounds, with four magazines included for extended shooting sessions
- Finish: Bi-tone gray Cerakote coating for enhanced durability and corrosion resistance
- Frame Material: Lightweight aluminum for balance and durability
- Slide Color: Gray to match the frame and reduce glare
- Grip Material: Polymer for a secure, comfortable hold
- Sights: Fiber optic for fast target acquisition
- Optic Footprint: Shield/RMSc compatible, allowing for easy customization
- Safety: No thumb safety for quick handling in high-pressure situations
- Ambidextrous Safety: No, designed for right-handed shooters
- Drilled and Tapped: No, prepped for optic mounting but not drilled
- Weight: 29 ounces for manageable carry without sacrificing stability
