A daredevil on a motorcycle leaves the end of a ramp with a speed of 32.4 m/s as in the figure below. If his speed is 30.5 m/s when he reaches the peak of the path, what is the maximum height that he reaches? Ignore friction and air resistance.
m

Transcribed Image Text:

The image depicts a motorcyclist riding up a ramp and launching into the air, illustrating principles of projectile motion. ### Description: 1. **Motorcyclist on Ramp**: - A biker is riding a motorcycle up a curved ramp. The ramp gives the initial velocity needed for the jump. 2. **Arrows**: - A red arrow pointing up the ramp indicates the direction of the motion and initial velocity as the motorcyclist ascends the ramp. - Another red arrow at the top of the trajectory shows the horizontal direction of the motion once the motorcyclist is airborne. 3. **Trajectory Path**: - A dashed parabolic line represents the trajectory of the motorcycle after it leaves the ramp, illustrating the typical path of a projectile under the influence of gravity. 4. **Maximum Height (h)**: - The diagram includes a vertical dashed line with the variable "h," representing the maximum height the motorcyclist reaches during the jump. This example shows projectile motion resulting from an initial velocity at an angle and is influenced by gravity while airborne. The concepts illustrated are crucial for understanding the physics of motion, particularly in two dimensions.