Chat with AIExam 37: Relativity
Exam 1: Measurement37 Questions
Exam 2: Motion Along a Straight Line90 Questions
Exam 3: Vector37 Questions
Exam 4: Motion in Two and Three Dimensions56 Questions
Exam 5: Force and Motion I73 Questions
Exam 6: Force and Motion II74 Questions
Exam 7: Kinetic Energy and Work73 Questions
Exam 8: Potential Energy and Conservation of Energy63 Questions
Exam 9: Center of Mass and Linear Momentum99 Questions
Exam 10: Rotation102 Questions
Exam 11: Rolling, Torque, and Angular Momentum66 Questions
Exam 12: Equilibrium and Elasticity57 Questions
Exam 13: Gravitation55 Questions
Exam 14: Fluids88 Questions
Exam 15: Oscillations75 Questions
Exam 16: Waves I82 Questions
Exam 17: Waves II71 Questions
Exam 18: Temperature, Heat, and the First Law of Thermodynamics96 Questions
Exam 19: The Kinetic Theory of Gases113 Questions
Exam 20: Entropy and the Second Law of Thermodynamics61 Questions
Exam 21: Electric Charge52 Questions
Exam 22: Electric Fields55 Questions
Exam 23: Gauss Law38 Questions
Exam 24: Electric Potential52 Questions
Exam 25: Capacitance61 Questions
Exam 26: Current and Resistance55 Questions
Exam 27: Circuits73 Questions
Exam 28: Magnetic Fields55 Questions
Exam 29: Magnetic Fields Due to Currents49 Questions
Exam 30: Induction and Inductance90 Questions
Exam 31: Electromagnetic Oscillations and Alternating Current88 Questions
Exam 32: Maxwells Equations; Magnetism of Matter81 Questions
Exam 33: Electromagnetic Waves83 Questions
Exam 34: Images79 Questions
Exam 35: Interference46 Questions
Exam 36: Diffraction77 Questions
Exam 37: Relativity68 Questions
Exam 38: Photons and Matter Waves57 Questions
Exam 39: More About Matter Waves41 Questions
Exam 40: All About Atoms79 Questions
Exam 41: Conduction of Electricity in Solids51 Questions
Exam 42: Nuclear Physics68 Questions
Exam 43: Energy From the Nucleus50 Questions
Exam 44: Quarks, Leptons, and the Big Bang55 Questions
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An event occurs at x = 500 m, t = 0.90 s in one frame of reference. Another frame is moving at 0.90c in the negative x direction. The origins coincide at t = 0 and clocks in the second frame are zeroed when the origins coincide. The coordinate and time of the event in the second frame is:
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(40) The velocity of an electron is changed from c/2 in the -x direction to c/2 in the +x direction. As a result, its kinetic energy changes by:
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(37) Frame S' moves in the positive x direction at 0.6c with respect to frame S. A particle moves in the positive x direction at 0.4c as measured by an observer in S'. The speed of the particle as measured by an observer in S is:
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(33) An event occurs at x = 500 m, t = 0.90 s in one frame of reference. Another frame is moving at 0.90c in the positive x direction. The origins coincide at t = 0 and clocks in the second frame are zeroed when the origins coincide. The coordinate and time of the event in the second frame is:
(Multiple Choice)
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(30) How fast should you move away from a 6.0 *1014 Hz light source to observe waves with a frequency of 4.0 * 1014 Hz?
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(36) A measurement of the length of an object that is moving relative to the laboratory consists of noting the coordinates of the front and back:
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