- Electric Field 20 0 N C Charge 10 0 Microc Mass 20 0 Milligrams Angle 45 0 Degrees 6 Keep The Charge At 10 0 Microc 1 (45.46 KiB) Viewed 43 times
- Electric Field 20 0 N C Charge 10 0 Microc Mass 20 0 Milligrams Angle 45 0 Degrees 6 Keep The Charge At 10 0 Microc 2 (19.57 KiB) Viewed 43 times
- Electric Field 20 0 N C Charge 10 0 Microc Mass 20 0 Milligrams Angle 45 0 Degrees 6 Keep The Charge At 10 0 Microc 3 (15.33 KiB) Viewed 43 times
6. Keep the charge at 10.0 microC and mass at 20 milligrams, Name the forces on the charged ball? What is the total net force? 7. Use the free-body diagram given on the simulation, find value of all three forces.
This is a simulation showing the equilibrium position of a charged ball on a string. The sliders allow you to adjust the strength of the electric field (shown with the purple arrows), the charge of the particle, and the mass of the particle. The gravitational field is a constant 10 N/kg directed down. Explore the simulation - given the limitations set by the sliders, what is the maximum angle that can be achieved? How close to 0 degrees can you get? Also, can you identily each of the forces on the free-body diagram? Simulation written by Andrew Duffy, and first posted on 1-11-2018.