When citing a compound bow, there are several different aspects that need to be taken into consideration. In order to ensure accuracy, it’s important to understand the various components and their relation to the bow’s capabilities. To get a better understanding of the proper way to cite a compound bow, we will look at the parts of the bow, how the parts work together, and the properties that affect accuracy.
Parts of a Compound Bow
The parts of a compound bow are fairly simple and include the following:
- Bow Limbs – These are the two main pieces that attach to the riser and the string. This is what gives the bow its power and the ability to generate torque.
- Risers – The riser is the part of the bow that is usually made of metal. It serves as the main frame and is used to attach the other components of the bow.
- Cams or Wheels – These are the round components attached to the bow limbs. They act like pulleys and create the rotational force that is necessary for the bow to be able to fire an arrow.
- Strings – The strings of a bow are the most important component, as this is the part that actually propels the arrow. The strings are made of a durable material such as Kevlar and are attached to the cams.
How the Parts of a Compound Bow Work Together?
When the bow is at full draw, the cams are released and the strings are released, causing the string to reach full draw length. As the string is released, the cams rotate and create the rotational force or torque necessary to fire the arrow. This torque is what creates the speed at which the arrow is released and is the main factor that should be considered when citing a bow.
Properties of a Compound Bow
Compound bows have specific properties that can affect accuracy and performance. Some of the properties that should be considered when citing a compound bow include:
- Draw Weight – This is the amount of force needed to draw the bow to full draw. Generally, higher draw weight will result in better accuracy and faster arrow speeds.
- Draw Length – This is the maximum distance between the string and the riser and is necessary to achieve optimum force. Generally, longer draw lengths will result in higher arrow speeds.
- Axle-to-Axle Length – This is the distance between the cams of the bow limbs and is necessary to ensure a proper and secure grip on the bow. Generally, shorter axle-to-axle lengths with mean tighter groups and better accuracy.
In conclusion, citing a compound bow requires a thorough understanding of the parts, how they work together, and the different properties that affect accuracy. While all of these factors should be taken into consideration when citing, the most important factor is the torque or rotational force of the bow. By understanding the bow’s components and their relation to one another, it is possible to accurately cite a compound bow.
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Last update 2021-01-05. Price and product availability may change.