the terminal velocity of a spherical bacterium (diameter 2.00 ?m ) falling in water. You will first need to note that the drag force is equal to the weight at terminal velocity. Take the density of the bacterium to be 1.10×10? kg/m3

Step-by-step solution Step 1 of 3 The drug force acting on the slow objects this is called force of viscosity is the radius is coefficient of viscosity is the velocity of object The weight of the object is equal to the drug force at terminal velocity. Here, The mass of the bacterium The terminal velocity of the bacterium Step 2 of 3 The radius of the bacterium The density of the bacterium The mass of the bacterium The volume of bacterium is, The mass of bacterium is, The mass of the bacterium