Thu. Sep 21st, 2023

what is the best let off on a compound bow

What is the best let off on a compound arrow? This question is one that beginners often ask, but it is important to use common sense and interpret the chart with your own personal physical condition and age. There are several reasons to let off a compound bow at a certain percentage. Below are some examples of let off percentages. The chart is also an excellent reference for beginners to choose the proper length and let off for them.

Matthew’s V3X

A Mathews V3X is a dream bow to aim with. It is stable at full draw, velvety smooth, and has an exceptionally low vibration level. The transition from back wall to peak is smooth and seamless. And the bow’s draw weight and let off are perfectly balanced. With a maximum draw weight of 60 pounds, the V3X is a superb option for a beginner or experienced archer alike.

The Matthew’s Genesis bow is a great choice for a beginner, as it generates more power than a recurve. It also is easier to handle, making it ideal for new shooters. Mathews estimates that 20 million children have learned to shoot with the Genesis bow since it was released. Movies like “The Hunger Games” and Disney’s “Brave” helped spread the sport to new audiences. And according to the Archery Trade Association, over 20 million people became archers between 2012 and 2015.

65% let off

Let off is a term that is often used to differentiate recurves and compound bows, but it is not always the best way to decide which bow is better for you. Compound bows with 65% let off, for example, will have a lower force at full draw, but the heavier draw weight will be easier to pull back from the target and maintain proper shooting form. If you are looking to buy a bow for hunting or target shooting, a 65% let off will give you a comfortable draw length, which is often the most important factor.

In hunting and competition, let off is critical for maximizing accuracy and reducing the amount of energy you expend in each shot. Compound bows use cams and cables to store energy and reduce the amount of draw weight required at full draw. Let off is often measured as a percentage of overall draw weight, so a seventy-five percent let off on a compound bow means that you need to hold only 15 pounds at full draw to achieve the same accuracy.

Long axle-to-axle length

Axle-to-axle length is the distance between the wheels that move in a compound bow. Axle-to-axle length is measured using rings that measure space at thirty, forty, and fifty yards from the bow. The length is then measured in inches. If you need to know the length of a compound bow, you can find out by using the table below.

The axle-to-axle length of a compound bow is one of the most important components of the compound bow. While a longer axle-to-axle length is generally easier to hold when aiming, it is not always more accurate. Especially if you are short on cash, a shorter axle-to-axle length is a good option. The short model from Liberty Archery has the shortest axle-to-axle length.

Compound bows with a long axle-to-axle length are popular among finger shooters, long draw archers, and target shooters. However, the short axle-to-axle length of a compound bow is increasingly decreasing as the market for bows changes. A database of new models and long axle-to-axle models is now available for the years 2021 and 2022.

Taller brace height

A taller brace height on a compound bow will provide more clearance for the arrow as it passes above the grip and area where you hold the bow. If the brace height is too low, the string will shoot too high and cause string slap, which is an undesirable outcome for a good let off. Regardless of your shooting style, it is best to start with a longer brace height than a shorter one.

In addition, a taller brace height increases the speed of the shot because the bowstring stays connected to the string for a longer time. Additionally, bows with a tall brace height tend to be louder than others. That’s because a short brace height creates more energy release, which leads to stronger vibrations in the bow frame. These vibrations are what create the sounds.