Puck: Difference between revisions
From Oberon_wiki
(Created page with "'''Puck''' is the name of Oberon's solitary satellite (moon). In the night sky Puck looks much the same as our own Moon except that it is considerably larger in the night sky. If you hold a 6cm disk out at arm’s length, that’s the size of Puck in the night sky. It is the phases and position of Puck that regulate the Imperial calendar. Puck also appears to have an effect on the tides, although there is debate amongst Oberon's scientists as to how strong this in...") |
No edit summary |
||
| Line 1: | Line 1: | ||
'''Puck''' is the name of | '''Puck''' is the name of Oberon's solitary satellite (moon). | ||
==Appearance== | |||
In the night sky Puck looks much the same as our own Moon except that it is considerably larger in the night sky. If you hold a 6cm disk out at arm’s length, that’s the size of Puck in the night sky. | In the night sky Puck looks much the same as our own Moon except that it is considerably larger in the night sky. If you hold a 6cm disk out at arm’s length, that’s the size of Puck in the night sky. | ||
==Importance== | |||
It is the phases and position of Puck that regulate the Imperial calendar. Puck also appears to have an effect on the tides, although there is debate amongst Oberon's scientists as to how strong this interaction is. | It is the phases and position of Puck that regulate the Imperial calendar. Puck also appears to have an effect on the tides, although there is debate amongst Oberon's scientists as to how strong this interaction is. | ||
Revision as of 22:22, 11 October 2024
Puck is the name of Oberon's solitary satellite (moon).
Appearance
In the night sky Puck looks much the same as our own Moon except that it is considerably larger in the night sky. If you hold a 6cm disk out at arm’s length, that’s the size of Puck in the night sky.
Importance
It is the phases and position of Puck that regulate the Imperial calendar. Puck also appears to have an effect on the tides, although there is debate amongst Oberon's scientists as to how strong this interaction is.
