An object moving in a liquid experiences a linear drag force: F drag = (bv, direction opposite
Question:
An object moving in a liquid experiences a linear drag force: F̅drag = (bv, direction opposite the motion), where b is a constant called the drag coefficient. For a sphere of radius R, the drag constant can be computed as b = 6πɳR, where h is the viscosity of the liquid.
a. Find an algebraic expression for vx(t), the x-component of velocity as a function of time, for a spherical particle of radius R and mass m that is shot horizontally with initial speed v0 through a liquid of viscosity ɳ.
b. Water at 20ºC has viscosity h = 1.0 × 10-3 N s/m2. Suppose a 4.0-cm-diameter, 33 g ball is shot horizontally into a tank of 20ºC water. How long will it take for the horizontal speed to decrease to 50% of its initial value?
Step by Step Answer:
Physics for Scientists and Engineers A Strategic Approach with Modern Physics
ISBN: 978-0133942651
4th edition
Authors: Randall D. Knight