A spaceship moving at constant speed u relative to us broadcasts a radio signal at constant frequency f₀. As the spaceship approaches us, we receive a higher frequency f; after it has passed, we receive a lower frequency. (a) As the spaceship passes by, so it is instantaneously moving neither toward nor away from us, show that the frequency we receive is not f₀, and derive an expression for the frequency we do receive. Is the frequency we receive higher or lower than f₀? (Hint: In this case, successive wave crests move the same distance to the observer and so they have the same transit time. Thus f equals 1/T. Use the time dilation formula to relate the periods in the stationary and moving frames.) (b) A spaceship emits electromagnetic waves of frequency f₀ = 345 MHz as measured in a frame moving with the ship. The spaceship is moving at a constant speed 0.758c relative to us. What frequency f do we receive when the spaceship is approaching us? When it is moving away? In each case what is the shift in frequency, f - f₀? (c) Use the result of part (a) to calculate the frequency f and the frequency shift (f - f₀) we receive at the instant that the ship passes by us. How does the shift in frequency calculated here compare to the shifts calculated in part (b)?