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Because the southern cross rotates around the south celestial pole like a clock, it is possible to determine the time of night from its' position.

Below are some instructions on how to do this. Also there isa kit you can make that does the mathematics for you (CRUX-CLOCK).The CRUX-CLOCK is my invention, it won first prize in a competitionrun by the Australian ABC radio program, 'practicalities'.


Time From The Southern Cross

The Night Sky

The Southern Cross is so much a part of Australia it is a goodidea to learn how to recognise it. Acrux (A-kruks) is the brighteststar in the cross as well as being the star at the foot of thecross.

The star at the top of the Cross is called Gacrux (ga-kruks).

The Southern Cross is not always upright as you see it on theAustralian Flag. It rotates around the South Celestial Pole, and,in 24 hours will lie on one side, be upside down and lie on theother side before returning to an upright position.

The South Celestial Pole is a point in the sky around whichall our stars rotate. There is no star there, just black nightsky. You can point to the centre of this great celestial clockby facing true south and pointing up at an angle equal to yourlatitude. To face true south set 168° on your compass. Sydney,Australia is on a latitude of about 33°. If you raise yourarm to 33° above the horizon you will be pointing to the SouthCelestial Pole. See now how a line through the Southern Crossalso passes through the South Celestial Pole.

So regular is this rotation around the Pole that the SouthernCross can be used to tell the time. The method is outlined below,but if the maths seem a little daunting then there is a devicecalled a "CRUX_CROSS" which does it all for you.

 

 

Time from the Southern Cross.

The night of the 29th of March is the best night of the yearto use the Southern Cross to tell the time because there are nocorrections to make.

Imagine the Southern Cross to be the hour hand of a 24 hourclock. The South Celestial Pole is the centre of the clock. Thus0/24 hours is directly above 6 hours and is normally where 3 hourswould be on a normal clock, 12 hours is closest to the horizonwhere 6 hours normally is on a clock. The diagram shows this.On this night of the year (29th) wherever the Southern Cross pointson this clock is the correct time.

You can use this method any time of the year but there is acorrection to make if the date is not March 29th. Firstly readthe time off the Southern Cross. Next deduct 2 hours from thattime for each month since 29th March (April 1st is close enoughand is an easier date to remember).

Example: (see diagram above)

Date 31st May

Time on Star Clock, 3 hours

Borrow 24 hours (because we have a big number to take off).

3 hours + 24 hours = 27 hours

March 29th to May 29th = 2 months x 2 hours = 4 hours

May 29th to May 31st = 2 days x 4 minutes = 8 minutes

From 27 hours subtract 4 hours 8 minutes = 22 hours 52 minuteswhich is 10.52 p.m.


The CRUX-CLOCK

To make one you will have to download both the kitfile (big, 60k) and the instructionsfile.

Print the kit file on an A4 shet of paper and glue it to asheet of stiff, but thin, cardboard.

2007 update ... you can get a better quality PDF version of the CRUX-CLOCK from the 'freebies' at ...

http://www.liveattentively.150m.com

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