Dare to Take Off: Calculating the Speed of a Motorcycle Stunt Rider

How can we calculate the take off speed of a motorcycle stunt rider?

Given data: Horizontal distance = 10m, Height above the ground = 1.25m

Answer:

To calculate the take off speed of the motorcycle stunt rider, we first need to find the time taken for the rider to fall from the height above the ground. We can use the formula H = 1/2 g t^2 to find the time t.
Given H = 1.25m and g = 9.8 m/s^2, we get: (2 * 1.25 / 9.8)^1/2 = 0.505 seconds.
Next, we can use the formula Vx = Δx / t to find the horizontal speed Vx.
Given Δx = 10m and t = 0.505s, we get: Vx = 10m / 0.505s = 19.8 m/s.

It's truly mesmerizing to witness a motorcycle stunt rider taking off into the air, defying gravity and performing incredible maneuvers. The exhilaration and adrenaline rush that come with such daring feats are undeniable.

Calculating the speed at which the rider takes off adds another layer of awe to the stunt. By understanding the physics behind the rider's motion, we can appreciate the skill and precision required to execute such a maneuver.

In this scenario, the height above the ground and the horizontal distance traveled by the rider are crucial factors in determining the take off speed. Through simple calculations using the laws of physics, we can unravel the speed at which the rider launches into the air.

Next time you witness a motorcycle stunt rider defy gravity and soar through the sky, remember the intricate calculations involved in achieving such a breathtaking moment. It's a testament to human ingenuity and courage, inspiring us to push the boundaries of what is possible.

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