A Lizard's Kick: Solving Projectile Motion Problems

a. What are the horizontal and vertical components of the initial velocity? b. What is the total time the ball is in the air? c. What is the maximum height of the ball? The horizontal and vertical components of the initial velocity are 8.19 m/s and 5.74 m/s respectively. The ball remains in the air for around 1.17 seconds. The maximum height attained by the ball is about 1.68 meters.

Understanding Projectile Motion

Projectile motion is a type of motion in which an object is thrown near the earth's surface and moves along a curved path under the influence of gravity. When a lizard kicks a ball with an initial velocity of 10 m/s at an angle of 35° with the horizontal, we can analyze the motion of the ball using the principles of projectile motion.

Horizontal and Vertical Components of Initial Velocity

By decomposing the initial velocity into horizontal and vertical components, we can calculate the horizontal component (Vx) and vertical component (Vy) using trigonometry. The horizontal component (Vx) can be found using the equation Vx = V0 * cos(θ), and the vertical component (Vy) using Vy = V0 * sin(θ), where V0 is the initial velocity and θ is the launch angle.

Total Time in the Air

The total time the ball remains in the air can be calculated using the equation t = 2 * Vy / g, where g is the acceleration due to gravity (9.8 m/s^2). By substituting the vertical component of the initial velocity into the formula, we can determine the total time the ball is in the air.

Maximum Height of the Ball

The maximum height attained by the ball can be calculated using the equation h = (Vy^2) / (2g), where h is the maximum height reached by the ball. By substituting the vertical component of the initial velocity into the formula, we can find the maximum height of the ball during its flight.

Understanding and solving projectile motion problems involve applying the principles of trigonometry and kinematics to analyze the motion of an object in two dimensions. By breaking down the initial velocity into its horizontal and vertical components, calculating the time of flight, and determining the maximum height reached by the object, we can accurately describe the trajectory of the ball kicked by the lizard.

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