Arrow Force Calculator


In the realm of physics and engineering, understanding the forces acting on objects is fundamental. Calculating the force of an arrow’s impact is crucial in fields like archery and ballistics. To simplify this process, an Arrow Force Calculator can be a handy tool. This article introduces a practical calculator along with explanations on how to use it effectively.

How to Use

Using the Arrow Force Calculator is straightforward. Input the necessary parameters such as the mass of the arrow, its velocity, and optionally, the duration of time it took for the arrow to stop. Once these values are entered, click on the “Calculate” button to obtain the result.


The force of impact (F) can be calculated using the formula:


  • m = mass of the arrow (in kilograms)
  • v = velocity of the arrow (in meters per second)
  • t = duration of time taken for the arrow to stop (in seconds)

Example Solve

Let’s consider an example where:

  • Mass of the arrow (m) = 0.05 kg
  • Velocity of the arrow (v) = 80 m/s
  • Duration of time taken for the arrow to stop (t) = 0.1 s

Plugging these values into the formula:

Therefore, the force of impact of the arrow is 40 Newtons.


Q: Can I use this calculator for different units of measurement?
A: No, this calculator works specifically with the metric system, so ensure all inputs are in kilograms, meters per second, and seconds.

Q: Is the duration of time taken for the arrow to stop always required?
A: While it’s beneficial for accuracy, if this value is unknown, you can omit it, and the calculator will still provide a result based on other parameters.

Q: What factors can affect the accuracy of the calculated force?
A: Factors such as air resistance, elasticity of the target, and the angle of impact can influence the actual force experienced by the target.


In conclusion, the Arrow Force Calculator simplifies the process of determining the force of impact of an arrow. By inputting key parameters, users can swiftly obtain accurate results, aiding in various applications such as archery, ballistics, and engineering simulations.

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