Chapter 22 - Electromagnetic Waves - Problems - Page 641: 20

3400 rad/s

In the time $\Delta t$ it takes for the light to travel from the mirror to Mt. Baldy and back, the eight-sided mirror should rotate 1/8 of a revolution. Then, the next mirror in the device is in the correct position to reflect the returning light. Find the angular speed. Note that the time $\Delta t$ is the roundtrip distance (twice the one-way distance of 35 km) divided by the speed of light. $$\omega=\frac{\Delta \theta}{\Delta t}=\frac{(2 \pi rad)/8}{(2 \Delta x)/c}=\frac{(\pi rad)c}{8 \Delta x}$$ $$\omega=\frac{(\pi rad)(3.00\times10^8m/s)}{8 (35\times10^3m)}=3400rad/s$$