Home > Courses > 1P22_Crandles Review Electric Fields and Circuits MC: coulomb force I MC: coulomb force II MC: charging by friction MC: charging by induction MC: field of two charges MC: motion in constant field I MC: motion in constant field II MC: What is the net potential produced by two charges? MC: What is the net potential produced by four charges? MC: How will the negative charge move? MC: What is the relative direction of equipotential surfaces and the electric field? MC: reading equipotential diagrams I MC: reading equipotential diagrams II MC: reading equipotential diagrams III MC: What is the change in stored energy in this capacitor I? MC: What is the change in stored energy in this capacitor II? MC: Electric Field inside D-cell MC: potential difference inside a wire MC: Current and Voltage Ex: electric socks MC: Resistance and diameter MC: Resistance and Length MC: How does current change I? MC: How does current change II? MC: Which resistors are connected in series ? MC: Which resistors are connected in parallel ? MC: bulbs in series versus bulbs in parallel MC: electrical "short" MC: current divider MC: KVR MC: unscrewing bulbs I MC: unscrewing bulbs II MC: What happens to the RC time constant? Magnetism Electromagnetic waves and Quantum Physics MC: two slit interference I MC: two slit interference IV MC: single slit diffraction I MC: single slit diffraction II MC: single slit diffraction III MC: What is the best telescope for this job? MC: two parallel polarizers MC: polarizers MC: Energy of a photon MC: How does the maximum photoelectron kinetic energy change? MC: deBroglie wavelength I MC: deBroglie Wavelength II MC: deBroglie wavelength III MC: Rutherford Scattering MC: Nuclear Force MC: Atomic Spectra Sample Questions - EM Waves and Quantum