9. Consider the falling object of mass 10 kg in Example 2, butassume now that the drag force is proportional to the square of thevelocity.a. If the limiting velocity is 49 m/s (the same as in Example 2),show that the equation of motion can be written as1 (49² - 1²).245dydtAlso see Problem 21 of Section 1.1.b. If y(0) = 0, find an expression for v(t) at any time.Gc. Plot your solution from part b and the solution (26) fromExample 2 on the same axes.d. Based on your plots in part c, compare the effect of aquadratic drag force with that of a linear drag force.e. Find the distance x(t) that the object falls in time t.Nf. Find the time T it takes the object to fall 300 m.

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Answered: 9. Consider the falling object of mass…

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