College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- Four projectiles, A, B, C, and D, were launched from, and returned to, level ground. The data table below shows the initial horizontal speed, initial vertical speed, and time of flight for each projectile. Data Table Initial Horizontal Initial Vertical Projectile Time of Flight (s) Speed (m/s) Speed (m/s) A 40.0 29.4 6.00 B 60.0 19.6 4.00 50.0 24.5 5.00 D 80.0 19.6 4.00 Which projectile traveled the greatest horizontal distance? [Neglect friction.] (1) A (2) B (3) С (4) Darrow_forwardDuring the battle of Bunker Hill, Colonel William Prescott ordered the American Army to bombard the British Army camped near Boston. The projectiles had an initial velocity of 43 m/s at 33° above the horizon and an initial position that was 36 m higher than where they hit the ground. How far did the projectiles move horizontally before they hit the ground? Ignore air resistance.arrow_forwardA reckless student is standing outside the HLC (Library) 8.50 meters away from the building, and throws a ball towards the building with a speed of 15.6m/s at an angle of 64.0° above the horizontal. a) For how long (time) is the ball in the air? b) How high up the side of the building (h) does the ball hit? h=? Vo=15.6m/s e=64.0° x-8.50m tv MacBook Pro +, G Search or type URLarrow_forward
- Questions 1 through 3 pertain to the situation described below: An archer wants to launch an arrow from a bow to clear a treetop that is 35.0 m vertically above, and 97.0 m horizontally away from, the launching location. Assume that the launching speed is 57.0 m/s and the launching angle is 0 above the horizontal. (1) How much does the arrow clear the treetop if 0 = 30.0°? (A) 3.6 m; (B) 3.1 m; (C) 2.6 m; (D) 2.1 m; (E) 1.6 m. (2) What is the maximum horizontal range of the arrow if 0 can vary? (A) 212 m; (B) 242 m; (C) 272 m; (D) 302 m; (E) 332 m. (3) What is the range of 0 for the arrow to clear the treetop? (A) 29.9-86.0°; (B) 28.9–81.0°; (C) 27.9–76.0°; (D) 26.9–71.0°; (E) 25.9–66.0°.arrow_forwardProblem 1: The baseball player A hits the baseball at VA = 40 ft/s and 0A = 60° from the horizontal. When the ball is directly overhead of player B he begins to run under it. Determine the constant speed at which B must run and the distance d in order to make the catch at the same elevation at which the ball was hit. A VA = 40 ft/s 15 ft B d Carrow_forwardYou launch a projectile at an initial speed of 57.6 m/s from the ground. After 6.00 seconds of flight, the projectile lands on the ground. At what angle above the horizontal was the projectile launched? 23.6 degrees 20.0 degrees 30.7 degrees 39.9 degreesarrow_forward
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