2.8: Snowball Fight Calculation (Video Solution)

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Page ID: 113264

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One strategy in a snowball fight is to throw a first snowball at a high angle over level ground, while your opponent is watching the first one you throw a second one at a low angle and timed to arrive at your opponent before or at the same time as the first one. Assume both snowballs are thrown with a speed of 25.0 m/s. The first one is thrown at an angle of 70° with respect to the horizontal. At what angle should the second snowball be thrown if it is to land at the same point as the first? How many seconds later should the second snowball be thrown if it is to land at the same time as the first.

Summary

The video focuses on solving a physics problem involving projectile motion with two snowballs. The problem is methodically broke down the problem into two parts, analyzing the projectile motion using velocity triangles, kinematics equations, and the range equation. Students learn how to calculate the time to reach maximum height, total flight time, and horizontal distance traveled for both snowballs.

00:02:30 Students verify first snowball calculations using initial velocity of 25 m/s and angle of 70 degrees.

00:08:00 Students practice calculating the range equation to find the second snowball's angle.

00:14:19 Students independently solve the problem to verify the timing difference.

00:06:37 Students review and confirm all numerical calculations and units.

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