1. A.S. 5.1.1 – 5.1.4 due Monday Reading reference: chapter 16

2. a) proton b) electron c) both feel the same force d) neither – there is no force e) they feel the same magnitude force but opposite direction electron proton Electron Proton + - A proton and an electron are in a constant electric field created by oppositely charged plates. You release the proton from the positive side and the electron from the negative side. Which feels the larger electric force?

3. a) proton b) electron c) both feel the same force d) neither – there is no force e) they feel the same magnitude force but opposite direction electron proton Electron Proton + - F = qE same charge in magnitude same force opposite directions oppositely charged Since F = qE and the proton and electron have the same charge in magnitude, they both experience the same force. However, the forces point in opposite directions because the proton and electron are oppositely charged. A proton and an electron are in a constant electric field created by oppositely charged plates. You release the proton from the positive side and the electron from the negative side. Which feels the larger electric force?

4. electron proton Electron Proton + - a) proton b) electron c) both feel the same acceleration d) neither – there is no acceleration e) they feel the same magnitude acceleration but opposite direction A proton and an electron are in a constant electric field created by oppositely charged plates. You release the proton from the positive side and the electron from the negative side. Which has the larger acceleration?

5. electron proton Electron Proton + - a) proton b) electron c) both feel the same acceleration d) neither – there is no acceleration e) they feel the same magnitude acceleration but opposite direction F = maelectron is much less massiveelectron experiences the larger acceleration Since F = ma and the electron is much less massive than the proton, the electron experiences the larger acceleration. A proton and an electron are in a constant electric field created by oppositely charged plates. You release the proton from the positive side and the electron from the negative side. Which has the larger acceleration?

6. electron proton Electron Proton + - a) proton b) electron c) both acquire the same KE d) neither – there is no change of KE e) they both acquire the same KE but with opposite signs A proton and an electron are in a constant electric field created by oppositely charged plates. You release the proton from the positive side and the electron from the negative side. When it strikes the opposite plate, which one has more KE?

7. electron proton Electron Proton + - a) proton b) electron c) both acquire the same KE d) neither – there is no change of KE e) they both acquire the same KE but with opposite signs PE = qV same charge in magnitude same electric potential energy same kinetic energy Since PE = qV and the proton and electron have the same charge in magnitude, they both have the same electric potential energy initially. Because energy is conserved, they both must have the same kinetic energy after they reach the opposite plate. A proton and an electron are in a constant electric field created by oppositely charged plates. You release the proton from the positive side and the electron from the negative side. When it strikes the opposite plate, which one has more KE?

8. Small group whiteboard task: On 1 half of the whiteboard: Draw a diagram of a spherical mass and its gravitational field lines Write the equations for gravitational field strength, gravitational potential energy, and gravitational potential Discuss the definitions of each of these concepts On the other half of the whiteboard: Draw a diagram of a positive point charge and its electric field lines Write the equation for electric field strength Predict the equations for electric potential energy and electric potential Determine a definition for electric potential energy and for electric potential

9. The energy stored in an electric field in the space between two charged objects. Units: Joules / J

11. If a positive test charge is used as the reference charge, where would it have the highest potential? Near a positive charge Near a positive charge or Near a negative charge Why?