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Falling Drop A raindrop of mass mo, starting from rest, falls under the influence of...

4. Falling Drop A raindrop of mass mo, starting from rest, falls under the influence of gravity. Assume that as the raindrop travels through the clouds, it gains mass at a rate proportional to the momentuin of the raindrop, ddtr kmrử,, where mr ls the instantaneous mass of the raindrop, vr is the instantaneous velocity of the raindrop, and k is a constant with unit [m-1]. You may neglect air resistance (a) Derive a differential equation for the raindrops accelerations d in terms of k, g. and the raindrops instantaneous velocity vr. Express your answer using some or all of the following variables: k, g for the gravitational acceleration and vr, the raindrops instantaneous velocity. (b) What is the terminal speed, vT, of the raindrop? Express your answer using some or all of the following variables: k and g for the gravitational acceleration.

4. Falling Drop 

A raindrop of mass \(m_{0}\), starting from rest, falls under the influence of gravity. Assume that as the raindrop travels through the clouds, it gains mass at a rate proportional to the momentum of the raindrop, \(\frac{d m_{r}}{d t}=k m_{r} v_{r}\), where \(m_{r}\) is the instantaneous mass of the raindrop, \(v_{r}\) is the instantaneous velocity of the raindrop, and \(k\) is a constant with unit \(\left[m^{-1}\right] .\) You may neglect air resistance.

(a) Derive a differential equation for the raindrop's accelerations \(\frac{d v_{r}}{d t}\) in terms of \(k, g\), and the raindrop's instantaneous velocity \(v_{r}\). Express your answer using some or all of the following variables: \(k, g\) for the gravitational acceleration and \(v_{r}\), the raindrop's instantaneous velocity.

(b) What is the terminal speed, \(v_{T}\), of the raindrop? Express your answer using some or all of the following variables: \(k\) and \(g\) for the gravitational acceleration.

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genius_generous answered 2 years ago
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