An object falling vertically through the air is subjected to viscous resistance as well as to the force of gravity. Assume that an object with mass m is dropped from a height so and that the height of the object after t seconds is mg s(1) = s - where g = 32.17 fi/s? and k represents the coefficient of air resistance in Ib-s/ft. Suppose so = 300 ft, m = 0.25 lb, and k = 0.1 lb-s/ft. Find, to within 0.01 s, the time it takes this quarter-pounder to hit the ground. Hint: At t=0, s=s(0)=300ft. On the ground s=0. Using Fixed point iteration method with initial guess t0=3 sec, find the solution up to t7. Draw a graph in mathematica as well.

An object falling vertically through the air is subjected to viscous resistance as well as to the force of gravity. Assume that an object with mass m is dropped from a height so and that the height of the object after t seconds is mg s(1) = s - where g = 32.17 fi/s? and k represents the coefficient of air resistance in Ib-s/ft. Suppose so = 300 ft, m = 0.25 lb, and k = 0.1 lb-s/ft. Find, to within 0.01 s, the time it takes this quarter-pounder to hit the ground. Hint: At t=0, s=s(0)=300ft. On the ground s=0. Using Fixed point iteration method with initial guess t0=3 sec, find the solution up to t7. Draw a graph in mathematica as well.

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Description: An object falling vertically through the air is subjected to viscous resistance as well as to the forceof gravity. Assume that an object with mass m is dropped from a height so and that the height of theobject after t seconds ismgs(1) = 8o+where g =

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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