How to calculate hang time
Introduction
Hang time, also known as “air time,” is the length of time an object or person remains airborne, typically during sports such as basketball, snowboarding, skateboarding, or even extreme sports like skydiving. In this article, we will uncover the science behind hang time and provide a step-by-step guide to calculating it accurately.
Understanding Hang Time
First and foremost, it’s essential to understand that hang time relies on two main factors: the vertical velocity (the force exerted upward) and the acceleration due to gravity. The vertical velocity is determined by how high the object or athlete can leap, while the acceleration due to gravity is constant (-9.8 m/s^2) on Earth.
Calculating Hang Time Step-By-Step
Step 1: Measure the Vertical Velocity (v)
To determine hang time, you first need to calculate the vertical velocity. This can be done using any device that measures speed or by recording a video and analyzing it. If doing so manually, measure the initial jump height and distance from the ground. Then calculate the initial vertical velocity using a formula v = √(2 * g * h), where v = vertical velocity, g = acceleration due to gravity (-9.8 m/s^2), and h = jump height in meters.
Step 2: Calculate Time To Reach Peak Height (t)
Once you have determined the initial vertical velocity (v), divide this value by gravitational acceleration (g) to find out how long it takes to reach peak height:
t = v / g
Step 3: Determine Total Hang Time
Since hang time is symmetrical (the time spent ascending is equal to the time spent descending), simply multiply the time to reach peak height by 2:
Total Hang Time = 2 * t
Conclusion
Although there are various variables in calculating hang time, such as air resistance, it is simple to determine with basic physics principles. By following these steps, you can accurately calculate hang time and gain a deeper understanding of the factors that impact it. Whether you’re an aspiring athlete or a curious fan, mastering this skill provides valuable insights into both sports performance and the physics behind those exhilarating moments of defying gravity.
