Rifle Scope Buyer's Guide
A quality riflescope is the key to a successful day at the range or in the field. Riflescopes bring distant targets and surrounding objects up close and personal allowing safer, more accurate shooting. They gather and utilize available light making it possible to shoot in lower light conditions and allowing the hunter to hunt from dawn to dusk.
Pairing just the right riflescope with your gun and ammunition will help you get the most out of each and every shot. Selecting the right one for you needs involves a number of considerations from image quality, magnification and field of view to weight, bulk and ergonomics. Choose a riflescope that best fits the requirements of your particular sport.
Image Quality: It is crucial that the optical system of a riflescope deliver as much light as possible to the eye of the shooter. The brighter the image, the sharper the resolution, and the clearer the shot. When selecting your scope, consider brightness, clarity, resolution, power and field-of-view. Also consider the integrity of point-of-impact, precision adjustments, reticle strength and durability.
Magnification: Low power riflescopes are ideal at close range and for shooting moving targets. They provide the most effective light management and produce a brighter sight picture and wider field to view-even in low-light conditions and thick brush. Select medium power for hunting big game targets at medium range. High power riflescopes are best for target shooting, when the target is motionless and for varmints and other small game.
Power: Commonly a riflescope will be expressed in a series of numbers such as 3.5-10x50 or 4x32. The first number(s), in this case 3.5-10 or 4, is the power. Power expresses the magnification as a factor compared to the naked eye. So in a fixed power scope, such as the 4x32, the object in view is magnified 4 times. An object would appear to be 4 times closer than it would with the naked eye. Therefore, a higher number has a greater magnification. Most scopes sold today are variable power, such as the 3.5-10 mentioned above. This allows greater versatility, since in this case, the shooter can vary the magnification from 3.5 to up to 10, with infinite values in-between.
The power that you select depends on the kind of hunting you will be doing. If you are planning on hunting in close cover, you will want either a low power fixed scope such as a 4x or a variable that goes down to 3.5x or even lower. This will give you a wider Field of View and allow you to acquire a target quickly in close cover. On the other hand, if long range varmint or target shooting is in your plans, you might want a scope that goes as high as 16x or even 20x. This will allow you to see small prairie dogs or the 10-ring clearly at 400 yards. For all around hunting, a range of 3.5-10 or 4-12 will allow some serious range variation, while still dialing down for close shots.
Objective: The second number in a scope, such as the 50 in a 3.5-10x50, is the diameter of the objective lens in millimeters. A 50 designation means that the outer lens is 50 mm in diameter. A larger number indicates a larger lens. Large lenses are more bulky, but they also offer a bit larger field of view and let in more light, which makes your image clearer - especially in low light conditions.
The low light performance is due to the maximum exit pupil offered by a larger objective. Exit pupil is the size of the beam of light that leaves the scope. The exit pupil can easily be calculated (in mm) by dividing the diameter of the objective lens by the power. Therefore, a 4x32 scope has an exit pupil of 8mm. On a bright day, the human pupil will vary from 2mm at noon to 4mm later in the day. When your eyes become adapted to dark conditions, such as pre-dawn and after sunset, when big game are moving, the pupil will vary from 5mm to a maximum of 9mm.
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On a bright day, having a scope with a larger exit pupil will have little effect. The only difference you may notice is that you will be able to move the scope and still maintain the image. In low light, the exit pupil is the biggest factor in getting as much light as possible to your eye.
Adjustable Objective: On some scopes, the objective lenses are adjustable. This allows you to focus at distances over 100 yards and adjust for a condition called Parallax. The scopes with adjustable objective lenses have markings that allow you to adjust the focus for specific ranges. Parallax occurs when viewing distant targets, and the reticle appears to shift or move. This occurs when the image in the scope is in one focal plane, and the reticle is in another. Most scopes without adjustable objectives are factory set to compensate for parallax and focus at an optimum distance of 100 or 150 yards. Parallax is usually only an issue at magnification over 10 power. When looking at a scope that will be used for distant targets in higher power, an adjustable objective is a good choice.
Reticle: The reticle is the aiming point within the scope - commonly called "crosshairs" due the standard arrangement being two thin wires that cross. They are also available in different combinations including, pointed posts, dots, multiple dots and bars. One of the more common reticles is a duplex or multiplex design where the main crosshairs are thicker for easier viewing (especially in low light), and as they near the center where they cross, the crosshairs become very fine, allowing for precise target placement. You will want to choose a reticle that best suits your style of shooting. For example, a heavy duplex reticle would be best for a shotgun scope used in heavy brush, where fine reticles would be difficult to see.
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Eye Relief: Eye relief is the comfortable distance that a scope can be held from the eye and still allow the shooter to see the entire image. It is literally the distance of your shooting eye to the eyepiece. It will usually be stated as a range, since in a variable power scope the eye relief will vary with the power. Lateral adjustment can be made while mounting the scope to give the individual shooter the optimum eye relief. On a rifle, the more generous the eye relief the better. This will allow you to acquire the target more quickly, which is a must for running shots. Three to four inches is a good number that will fit most hunters. On large, magnum rifles, you want a maximum of relief, so when the rifle recoils, the scope doesn't come back and possibly injure the shooter.
When mounting a scope on a handgun, you will need a special pistol scope that has an eye relief of 12 to 24 inches. This will allow you to hold your handgun in a comfortable shooting stance and still see the full image through the scope.
FOV @ 100 yards: FOV stands for Field of View. What this means is how wide of an area (in ft.) that you can view at 100 yards. A higher number indicates a wider area, while a smaller number indicates a narrower area. The focal length of the objective lenses and the eyepiece design have the most impact on the actual FOV. The power of the scope has an inverse relationship with FOV. As the magnification increases, a smaller FOV results. If you are looking for a scope for quick target acquisition in close cover, your will need a wider field of view and therefore, a smaller power.
Minute of Angle: Minute of Angle (MOA) is a term to designate variances on a target at 100 yards distant. Most commonly, it is used to describe the adjustment on a scope. If a scope's adjustments are listed at ј" MOA, then for every click of the adjustment knob, the bullet's point of impact will move ј" at 100 yards.
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Windage: Windage is the term for horizontal adjustment of your scope.
Elevation: Elevation is the adjustment of the scope in the vertical direction.
Tube Diameter: The majority of the scopes on the market come with the main tube having a one-inch diameter. Several European models and now a few others also come with a 30mm tube diameter. Contrary to popular belief, the larger tube does not allow more light to reach your eye. The exit pupil mentioned above controls this. However, a larger tube diameter does give added strength and rigidity due to the greater cross sectional area and larger rings and mounts. A larger tube diameter also allows for an increased range of adjustment for windage and elevation.
Optical Coatings: The largest limitation of light transmission in riflescopes is reflected light. Any time that light strikes a glass surface, up to 5% of the light can be reflected back. However, if a thin chemical film (commonly Magnesium Fluoride) is used to coat the surface of the glass, much of the reflection can be eliminated. The coating reduces light loss and glare, increasing light transmission and resulting in brighter, clearer images. By coating a surface with multiple films, the effect of the coating is increased, at times limiting the amount of reflected light to 0.25% to 0.5% per glass surface.
Length and Weight: When carrying your rifle for a long time, every extra ounce can weigh you down. While larger objectives and variable power have their benefits, the extra ounces quickly add up for all these features. If you are looking to minimize the weight of a rifle that you will be carrying a lot, consider a compact, fixed power scope with a medium sized objective. It will provide a large exit pupil with a bright image and weigh a lot less than a variable power scope.
