Evaluation:A. Explain free falling bodyB. Solve the following problems neatly:1. A stone is thrown vertically upward from the ground with a velocity of 15m/sec. One second later, another stone is thrown vertically upward with avelocity of 30 m/sec.a. When will the stones be at the same level? Ans. t = 1.4 secb. How far above the ground will the stones be at the same level? Ans S=11.4 mc. Determine the time the second stone travelled until the stones are atthe same level? Ans. t2 = 0.4 sec2. A stone is dropped from a balloon at an elevation of 300 m. Twoseconds later, another stone is projected vertically upward from theground with a velocity of 75 m/sec.a. When will the stones pass each other? Ans. t = 4.963 secb. Where will the stones pass each other from the ground? Ans. S =179.2 mc. Compute the time travelled by the stone from the ground until theypass each other. Ans. t2 = 2.96 sec3. A stone is thrown vertically into the air at a velocity of 60 m/sec. After 4seconds, another stone is thrown vertically into the air.a. Determine the time that the first ball has travelled in order to meet thesecond ball 120 m from the ground. Ans. t1 = 6.1 secb. Determine the time that the second ball has travelled in order to meett2 = 3.6 secthe first ball 120 m from the ground. Ans. t3 = 5.7 secc. What initial velocity must the second ball have in order to meet the firstball 120 m from the ground? Ans. V3 = 49 m/sec4. A stone is thrown vertically upward with an initial velocity of 3 m/secfrom the top of a tall building. The stone strikes the ground 4 second later.a. What is the maximum height reached by the stone above the building?Ans. S = 0.459 mb. What is the height of the building? Ans. H = 66.331 mc. What is the velocity of the stone as it strikes the ground? Ans. V =36.20 m/sec5. A ball is thrown vertically up from the ground with a velocity of 90m/sec. How long must one wait before dropping a second ball from the topof a tower 180 m high if the two balls are to pass each other 60m from thetop of the tower?Ans. t1 = 16.90 sec, t2 = 3.5 sec, t3 = 13.4 sec7

Name: Evaluation:A. Explain free falling bodyB. Solve the following problem
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Description: Evaluation:A. Explain free falling bodyB. Solve the following problems neatly:1. A stone is thrown vertically upward from the ground with a velocity of 15m/sec. One second later, another stone is thrown vertically upward with avelocity of 30 m/sec.a

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Physics

Evaluation: A. Explain free falling body B. Solve the following problems neatly: 1. A stone is thrown vertically upward from the ground with a velocity of 15 m/sec. One second later, another stone is thrown vertically upward with a velocity of 30 m/sec. a. When will the stones be at the same level? Ans. t = 1.4 sec b. How far above the ground will the stones be at the same level? Ans S =11.4 m c. Determine the time the second stone travelled until the stones are at the same level? Ans. t2 = 0.4 sec

Evaluation: A. Explain free falling body B. Solve the following problems neatly: 1. A stone is thrown vertically upward from the ground with a velocity of 15 m/sec. One second later, another stone is thrown vertically upward with a velocity of 30 m/sec. a. When will the stones be at the same level? Ans. t = 1.4 sec b. How far above the ground will the stones be at the same level? Ans S =11.4 m c. Determine the time the second stone travelled until the stones are at the same level? Ans. t2 = 0.4 sec

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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