Tuesday, April 13, 2021
Monday, April 12, 2021
You are invited to participate in the 5th Canadian Astronomical Olympiad!
Check the Problems:
1. Satellite. Phobos has a radius of 11 km while Mars has a radius of 3390 km. Phobos has a circular orbit around Mars which is inclined at 0° to Mars’s equator. The period of Phobos is 7h 40m, while the time it takes for Mars to complete a full rotation around its axis is 24h 37m.
a) How many times in a Martian day does Phobos rise above the horizon?
b) Where on the horizon does Phobos rise?
c) Suppose Mars was inhabited by Martians. Would it be practical for them to create a calendar using Phobos analogous to the lunar calendars we have on earth? There is no single correct answer, but please justify your opinion with three reasons backed up with calculations.
2. Seasons. A common misconception is that summer and winter are caused by the changing distance between Earth and the Sun. In reality, however, the seasons are caused by Earth’s tilt. For an observer at a latitude of 55°, find the ratio of the solar irradiance at noon of summer solstice to the irradiance at noon of winter solstice due to Earth’s tilt (without considering the changing distance). Find the ratio of the irradiances due to Earth’s changing distance from the sun (without considering Earth’s tilt). Compare the two ratios. What can you conclude?
3. Polar night. A city has a latitude of 68° 58’. Find the length of the polar night in this city.
a) radial velocity,
b) distance to Earth,
c) linear dimensions,
d) absolute magnitude, and
5. Telescope. The photo below shows a picture of the moon taken at the prime focus of a telescope with a CCD chip with dimensions 22.2 by 14.8 mm. The ratio of the sides of the photo is the same as the ratio of the sides of the CCD chip. Find the focal length of the objective lens of the telescope.
Prove this astronomer wrong by calculating the change in apparent magnitude of the galaxy during the time they were watching TV. Also calculate the actual apparent magnitude and find the ratio of the two values. Assume Earth’s orbit is circular and the galaxy is stationary relative to the Sun. You may use the following data about the galaxy:
Distance to the Sun (d) = 810 kpc
Surface brightness (μ) = 23.65 mag/arcsec2
Radius (r) = 12 kpc
You think you can solve them? If so, send your answers to firstname.lastname@example.org by May 17, 2021. You might be one of the lucky winners who will be selected to represent Canada at International Olympiad on Astronomy and Astrophysics 2021!