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Tama HP910LWN Speed Cobra Double Kick Drum Pedal with Carry Case |
At Music Store Live we're all musicians like you, and we know how hard it can be to afford all the gear that you want and need. We encourage you to make us an offer. Often times, you'll be pleasantly surprised! Additionally, don't hesitate to contact us regarding financing options. We'll do everything we can to help get that next piece of gear into your hands. Manufacturer's Description
Designed to fuel speedy footwork, TAMA’s precision-engineered Speed Cobra pedal now enters a new era. The credo under which it was first forged: "Extreme Velocity. Serious Power," has been honed to add yet another playing characteristic to its already daunting personality—Unprecedented Velocity, delivered with minimum work. FeaturesLong Footboard A specially designed pedal board for the Speed Cobra series. By designing the footboard longer than Iron Cobra, it rapidly accelerates the power and speed of the beater stroke, with less physical effort than ever before. Additionally, the smoother playing surface reduces friction between your foot and the footboard, allowing more precise control and flexibility. Recessed Setting To continuously play fast passages, your pedal action has to feel light for less stress and muscle fatigue. The Recessed Setting position makes it possible to achieve a perfect balance between the natural playing feel of the Chain Drive's motion and lighter action. According to physical theorem, wider angle (θ) between the force of stepping on the footboard (F1) and the force of pulling the chain from the sprocket (F2) makes less power of F1 if the same F2 power is required. To utilize this theorem, we set up the footboard placement with the best balance between natural action and lighter motion. Also by changing the bearing's framework structure, this produces less stress on the FASTBALL bearing and makes a huge difference in the total feel. As a result, about 20% less exertion is required to produce the same result in power and feel found in existing current models (PAT.PENDING). |