Increases. stays the same. Use the simulation to evaluate to the following state
ID: 1473174 • Letter: I
Question
Increases. stays the same. Use the simulation to evaluate to the following statements: (TRUK) / (FALSE) If the oscillation frequency of the transmit ting electron decreases, the oscillation frequency of the electron in the receiver is instantaneously affected. (TRUE) / (FALSE) The electron in the receiving antenna oscillates at a lower frequency than the electron in the transmitting antenna because of the distance between the antennas. ( (TRUE) / (FALSE) If the frequency of oscillation increases but the amplitude of the electron oscillation remains the same, then the electron in the transmitting antenna is experiencing larger accelerations (recall what you know about acceleration and motion). (TRUE) / (FALSE) If the frequency of the transmitting electron decreases by a factor of two, it will now take longer for the electromagnetic signal to reach the receiving antenna (TRUE) / (FALSE) If the amplitude increases but frequency remains the same, the electron at the receiving antenna experiences larger peak forces but oscillates at the same frequency as before. (TRUE) / (FALSE) The electromagnetic waves generated by the transmitting antenna produce currents in the receiving antenna (TRUE) / (FALSE) If the frequency decreases,! he wavelength decreases. (TRUE) / (FALSE) When the electron in the transmitting antenna is at its peak height, the electron in the receiving antenna is always also at its peak height. Which one of the following sets of graphs of position vs. time, velocity vs. time, and acceleration vs. time corresponds with the motion of the electron in the receiving antenna?Explanation / Answer
6. False. No information can travel faster than light. So intataneous information travelling of electron emitting frequncy change is not possible.
7. False. Frequency doesent change in travelling.
8. True. Accleration is nothing but derivative of velocity vs time, since velcocity changes faster due to oscillation increase, acceleration to increases.
9.False. Since velocity, v= f/lambda. If frequency f changes, wavelength lambda to changes with it, velcoity v remains the same. It'll take the same time to travel.