Practice: Which of the following quantities are constant during projectile motion?

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Ch 03: Vectors | 2hrs & 43mins | 0% complete | ||

Ch 04: 2D Kinematics | 2hrs | 0% complete | ||

Ch 05: Projectile Motion | 2hrs & 57mins | 0% complete | ||

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Sections | |||
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Intro to Projectile Motion: Horizontal Launch | 36 mins | 0 completed | Learn |

Negative (Downward) Launch | 25 mins | 0 completed | Learn |

Symmetrical Launch | 25 mins | 0 completed | Learn |

Projectiles Launched From Moving Vehicles | 14 mins | 0 completed | Learn |

Special Equations in Symmetrical Launches | 17 mins | 0 completed | Learn |

Positive (Upward) Launch | 42 mins | 0 completed | Learn |

Using Equation Substitution | 18 mins | 0 completed | Learn |

Concept #1: Introduction to Projectile Motion

Practice: Which of the following quantities are constant during projectile motion?

Concept #2: Solving Horizontal Launch Problems

Practice: A rock is thrown horizontally with a speed of 20 m/s from the edge of a high cliff. It lands 80 m from the cliff's base. How tall is the cliff?

Example #1: A ping-pong player standing 1.6 m from the net serves the ball horizontally. The ball is hit 1.2 m above the floor. What initial speed does the ball need to go over the net, which is 1.6m away from the player and 0.90m above the floor?

Example #2: You kick a ball horizontally at 8 m/s from the roof of a 40m-tall building. Unfortunately, a car below you on the street accelerates forwards from rest, and your ball lands on the car. What was the acceleration of the car (assumed to be constant)?

0 of 6 completed

Concept #1: Introduction to Projectile Motion

Practice #1: Which of the following quantities are constant ...

Concept #2: Solving Horizontal Launch Problems

Practice #2: Height of a Cliff

Example #1: Clearing the Net

Example #2: An Unfortunate Landing

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