3. A object of mass m is falling close to the Earth's surface. A drag force proportional to the square of the velocity acts on the object. TIL (a) Find a differential equation modeling the vertical position y as a function of t. (b) Are there any equilibrium constant velocities for this model? Explain your reasoning. (15 noint
3. A object of mass m is falling close to the Earth's surface. A drag force proportional to the square of the velocity acts on the object. TIL (a) Find a differential equation modeling the vertical position y as a function of t. (b) Are there any equilibrium constant velocities for this model? Explain your reasoning. (15 noint
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Transcribed Image Text:3. A object of mass m is falling close to the Earth's surface. A drag force proportional to the square of the
velocity acts on the object.
TIL
(a)
Find a differential equation modeling the vertical position y as a function of t.
(b)
Are there any equilibrium constant velocities for this model? Explain your reasoning.
(15
noint
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