These problems share the same scenario. Each is just a different question about the same situation. Also, note the magnitude of the gravitational acceleration is 9.81 5, not 9.80 as quoted in the text. Consider a rock tossed upward at speed 33.45 from the top of the Empire State Building (381 m above street level). It's given a little horizontal velocity that we'll ignore just so it clears the building as it falls back down after reaching its maximum height. 1) Calculate the time the rock spends on the way up to the maximum height. A) 3.40979s B) 3.405 795 C) 3.409 79s D) 2.10676s E) 2.10676s F) 2.106 765 G) 5.67979s H) 5.675 79s )5.6779s 2) Calculate the maximum height, above street level, that the rock attains. A) 381 m B) 382 m C) 390 m D) 398 m E) 406 m F) 407 m G) 408 m H) 416 m I) 438 m

These problems share the same scenario. Each is just a different question about the same situation. Also, note the magnitude of the gravitational acceleration is 9.81 5, not 9.80 as quoted in the text. Consider a rock tossed upward at speed 33.45 from the top of the Empire State Building (381 m above street level). It's given a little horizontal velocity that we'll ignore just so it clears the building as it falls back down after reaching its maximum height. 1) Calculate the time the rock spends on the way up to the maximum height. A) 3.40979s B) 3.405 795 C) 3.409 79s D) 2.10676s E) 2.10676s F) 2.106 765 G) 5.67979s H) 5.675 79s )5.6779s 2) Calculate the maximum height, above street level, that the rock attains. A) 381 m B) 382 m C) 390 m D) 398 m E) 406 m F) 407 m G) 408 m H) 416 m I) 438 m

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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