For small, slowly falling objects, the assumption made in the text that the drag force is proportional to the velocity is a good one. For larger, more rapidly falling objects, it is more accurate to assume that the drag force is proportional to the square of the velocity.2 a.Write a differential equation for the velocity of a falling object of mass m if the magnitude of the drag force is proportional to the square of the velocity and its direction is opposite to that of the velocity. b.Determine the limiting velocity after a long time. c.If m = 10 kg, find the drag coefficient so that the limiting velocity is 49 m/s. d.Using the data in part c, draw a direction field and compare it with Figure 1.1.3.

For small, slowly falling objects, the assumption made in the text that the drag force is proportional to the velocity is a good one. For larger, more rapidly falling objects, it is more accurate to assume that the drag force is proportional to the square of the velocity.2 a.Write a differential equation for the velocity of a falling object of mass m if the magnitude of the drag force is proportional to the square of the velocity and its direction is opposite to that of the velocity. b.Determine the limiting velocity after a long time. c.If m = 10 kg, find the drag coefficient so that the limiting velocity is 49 m/s. d.Using the data in part c, draw a direction field and compare it with Figure 1.1.3.

College Algebra

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ISBN:9781938168383

Author:Jay Abramson

Publisher:Jay Abramson

Chapter6: Exponential And Logarithmic Functions

Section6.1: Exponential Functions

Problem 60SE: The formula for the amount A in an investmentaccount with a nominal interest rate r at any timet is...

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Differential Equations

Have you ever observed the movement of the satellites and rockets or how the planets go around the sun in their orbits? How will you determine their motion? Definitely they follow some scientific laws and these kinds of problems are framed as differential equations.

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a.Write a differential equation for the velocity of a falling object of mass m if the magnitude of the drag force is proportional to the square of the velocity and its direction is opposite to that of the velocity.

b.Determine the limiting velocity after a long time.

c.If m = 10 kg, find the drag coefficient so that the limiting velocity is 49 m/s.

d.Using the data in part c, draw a direction field and compare it with Figure 1.1.3.

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