|Manufacturer's Suggested Retail Price||$249.00|
The AF-S DX NIKKOR 55-300mm f/4.5-5.6G ED VR Lens from Nikon is a compact 5.5x zoom F-mount lens for DX-format DSLR cameras. This lens is a versatile choice for travel, landscapes, portraits, and distant subjects. The lens focuses to 4.6' at every focal length and features the Silent Wave Motor for smooth and virtually silent AF action.
The VR II image stabilization allows you to handhold the camera at up to 3 shutter speeds slower than would otherwise be possible, assuring dramatically sharper still images and stable video capture. One High Refractive Index element and two ED glass elements minimize aberrations for sharp, color-accurate images throughout the zoom range. The lens elements have been treated with Nikon's Super Integrated Coating - an optical lens coating process that maximizes light transmission while enhancing clarity and contrast.
5.5x Telephoto Zoom lens
Ideal for capturing distant subjects at athletic events, family pictures, dramatic sunsets, travel and more. Angle of view equivalent to a focal length of 82.5 to 450mm in FX/35mm format D-SLR.
Nikon VR II Image Stabilization
Vibration Reduction, engineered specifically for each VR NIKKOR lens, enables handheld shooting at up to 4 shutter speeds slower than would otherwise be possible, assuring dramatically sharper still images and video capture.
Tripod Detection Mode
Reduces vibration that may occur due to shutter release when mounted on a tripod.
HRI (High Refractive Index) Lens Element
HRI lens element is essential to keeping the lens compact while offering high contrast even at maximum aperture.
2 Extra-low Dispersion (ED) Elements
Effectively minimizes chromatic aberration, even at the widest aperture settings.
Exclusive Nikon Silent Wave Motor (SWM)
Enables fast, accurate and quiet autofocus.
Nikon Super Integrated Coating (SIC)
Enhances light transmission efficiency and offers superior color consistency and reduces flare.
Rounded 9-Blade Diaphragm
Renders more natural appearance of out-of-focus image areas.