Read Chapter 1 in the textbook (pages 4 – 21)
... b. location d. velocity _____6. When an electron is moved near a negatively charged sphere, its potential energy increases. The reason this happens is because _____. a. opposite charges attract c. work is done against an electric field b. like charges repel d. all of the above _____7. If two protons ...
... b. location d. velocity _____6. When an electron is moved near a negatively charged sphere, its potential energy increases. The reason this happens is because _____. a. opposite charges attract c. work is done against an electric field b. like charges repel d. all of the above _____7. If two protons ...
Electricity and Magnetism Vocabulary
... Battery: a device that is made of several cells and that produces an electric current by converting chemical energy into electrical energy. Cell: a device that produces an electric current by converting chemical energy into electrical energy Circuit: a complete, closed path through which electric ch ...
... Battery: a device that is made of several cells and that produces an electric current by converting chemical energy into electrical energy. Cell: a device that produces an electric current by converting chemical energy into electrical energy Circuit: a complete, closed path through which electric ch ...
Electricity and Magnetism Study Guide
... 2. Explain why your circuit looks the way that it does (Why would it work/ why is this the correct way?). The circuit is in one loop because it is a series circuit. The parts are connected with wire b/c they are made of metal and are conductors to allow the electric current to flow. The wires ...
... 2. Explain why your circuit looks the way that it does (Why would it work/ why is this the correct way?). The circuit is in one loop because it is a series circuit. The parts are connected with wire b/c they are made of metal and are conductors to allow the electric current to flow. The wires ...
Magnetism - Cuero ISD
... palm). Also, when a wire is moved into B, the charges in the wire (q) move due to B, causing an induced current in the wire (Fmag). • Two notes: 1) If the charge isn't moving, there is no Fmag. 2) The Right Hand Rule works only for positive charges (protons and conventional current, which flows from ...
... palm). Also, when a wire is moved into B, the charges in the wire (q) move due to B, causing an induced current in the wire (Fmag). • Two notes: 1) If the charge isn't moving, there is no Fmag. 2) The Right Hand Rule works only for positive charges (protons and conventional current, which flows from ...
10. Maxwell.
... Equation of the total current (H); which can also be written as J = (σ + ε∂/∂t)E (I). 10. ∇ ⋅ D = ρ Equation for the electric volume-density (J); and an equation for electric surface-density (K). 11. B = µH Equation of induced magnetization (L). 12. ∇ ⋅ M = m Equation for the magnetic volume-density ...
... Equation of the total current (H); which can also be written as J = (σ + ε∂/∂t)E (I). 10. ∇ ⋅ D = ρ Equation for the electric volume-density (J); and an equation for electric surface-density (K). 11. B = µH Equation of induced magnetization (L). 12. ∇ ⋅ M = m Equation for the magnetic volume-density ...
Electric Field
... • A Van de Graaff dome of radius 0.20 meters is charged to 3.00 x 10-4 C. What is the strength and direction of the electric field at the following distances from the center? – 5.0 cm – 20.0 cm – 1.0 meter ...
... • A Van de Graaff dome of radius 0.20 meters is charged to 3.00 x 10-4 C. What is the strength and direction of the electric field at the following distances from the center? – 5.0 cm – 20.0 cm – 1.0 meter ...
Linking Asteroids and Meteorites through Reflectance
... pole or a moving charged particle • Direction of the field, by convention, is from the north pole to the south pole ...
... pole or a moving charged particle • Direction of the field, by convention, is from the north pole to the south pole ...
Electric Shielding and the Electric Field
... attracts a — charge from the "ground" into the shield. Hence, the electric lines of force of the plus charge end at the minus charges that are outside the shielded space. Similarly a — charge that is nearby will cause a + charge on the shield. Obviously, the shield must be a good conductor, so that ...
... attracts a — charge from the "ground" into the shield. Hence, the electric lines of force of the plus charge end at the minus charges that are outside the shielded space. Similarly a — charge that is nearby will cause a + charge on the shield. Obviously, the shield must be a good conductor, so that ...
