Transits of Venus are rare and historically important astronomical events. Most of Australia is well positioned to witness the next transit of Venus on Wednesday 6th June 2012. The Surveying and Spatial Sciences industry in association with the Astronomical Association of Queensland (AAQ) is providing resources to enable students to participate in a re-enactment of a great scientific endeavour and in doing so learn valuable lessons in science, mathematics, history and geography.

The Transit of Venus project

Surveying and Spatial Sciences industries and AAQ have established this website which provides a central portal with a competition, information and resources about the transit.  The following are available:

SolarScope School Competition - Win 1 of 100 SolarScopes for your school

How to enter:  Download the student exercise “Transit of Venus – A simulation program” and the astronomical software simulation program “Stellarium”. Use Stellarium to simulate the transit of Venus from the location of your school (you will have to find out the latitude and longitude of the school).  Predict the timing of second contact (when Venus is just inside the Sun on the way “in”).  Then enter your answer and the school’s details at The Competition Page. Entries close on 15 March 2012.

What you get:

Winners will be reimbursed the cost of a SolarScope in May 2012. A Land Surveyor will be available to personally deliver the SolarScope, instruct the class on it’s use and can run a short practical exercise to demonstrate Surveying concepts (subject to local availability).  The SolarScope is a great way for the school to view the transit. Should cloud cover affect visibility of the transit, the SolarScope can also be used for such activities as observing sunspots, determining the rotation speed of the Sun and safely observing Solar Eclipses.

All Schools who enter will be invited to purchase a SolarScope for $80 (valued at over $150). Orders must be placed by the closing date of 15 March 2012. Schools that win one of the 100 free SolarScopes will not have to pay for one SolarScope they may have ordered.

Terms & Conditions: 

100 entries that correctly predict the second contact time of the Transit of Venus for their School will receive a free SolarScope. One free SolarScope may be won per School (includes all campuses under that Brand). Entries close 15 March 2012. Winners will be notified via email in the first week of April 2012. The competition is open to all Primary and Secondary Schools across Australia.

Resources for teachers

Teachers can access student activities and lesson plans from the Resources tab. Activities are designed to assist with teaching about the transit in the classroom.  These cover aspects of Science and Mathematics and there is information on how they relate to the new National Curriculum. One example is to use freely available software to simulate the transit, investigate the transit circumstances for your geographic location, or any other location on the Earth, record the results and later observe the transit to compare results to observation.

Webcast of the transit

For those without an alternate safe viewing option or if there is bad weather on the day or those not fortunate to be in the viewable area of the transit, a live video of the whole event will be broadcast on the project website above. Coverage will start from 8am, Eastern Australian Time (GMT +10 hours) and will conclude some seven hours later after Venus has completed its transit.

The event will be covered by a number of high quality specialist telescopes in Australia to ensure the best possibility of getting a live feed should cloud hamper efforts and cameras will be switched on a regular basis to compare the different views through our broadcaster’s telescopes. For a more feature packed view of the event, click the LiveStream above for a larger view, where users can join in with live chat too!

Computing the Astronomical Unit

Links are provided on the website to sites which describe the method of calculation of the Astronomical Unit (AU), AU calculators which use data from the transit of Venus in 2004 and calculators that allow input of your observation of the 2012 transit for your own calculation of the AU.  See computing Astronomical Unit above.

Other information includes:

The latest version of this brochure available for download; links to related websites and information on Surveying and Spatial Sciences as a career and Surveying and Spatial Sciences education. Email all enquiries to info@transitofvenus.com.au

What is a Transit?

A Transit of a planet occurs when the planet passes directly between the Earth and the Sun so that as seen from the Earth, the planet appears to pass across the face of the Sun. Transits can only occur with planets whose orbit is between that of the Earth and the Sun; that is, Mercury and Venus. A transit of a planet is similar to a solar eclipse but the planet appears to be much smaller that the Moon so it cannot cover the Sun and looks like a small black disc slowly crossing the Sun.

How often do Transits occur?

Transits of Mercury occur quite regularly (with about 13 each century) but they are difficult to observe due to the very small apparent size of Mercury. Transits of Venus are much rarer and are more interesting due to the larger apparent size of Venus and due to their historical connections.

Transits of Venus occur in a pattern that repeats every 243 years with pairs of transits eight years apart separated by gaps of 121½ years and 105½ years. Venus and the Earth are aligned in the same direction out from the Sun about every 584 days (this is called in conjunction), however a transit does not occur each time because Venus’s orbit is usually above or below the Sun in the sky.

Since the phenomena was first recognized there have only been six transits of Venus – 1639, 1761, 1769, 1874, 1882 and the most recent one  in 2004. The 6th June 2012 transit is our last opportunity to observe a transit of Venus, as the next event occurs on 11th December 2117

Historical significance of transits

Jeremiah Horrocks was the first person to successfully predict and observe a transit of Venus in 1639. Observations of the transits of Venus became scientifically important when in 1716 Edmund Halley proposed that observations from different locations on the Earth could be used to determine the distance between the Sun and the Earth (called the Astronomical Unit); and the scale of the solar system could be subsequently determined by applying Kepler’s third law of planetary motion. At that time there was great uncertainty about the size of the solar system and by extension the size of the universe. Many scientific expeditions were sent around the globe to observe the 1761 transit and there was great competition between nations to solve what was called “the noblest problem in astronomy”. Unfortunately difficulties in accurately timing the transit led to conflicting results, and consequently an even greater effort was mounted for the 1769 transit. Combined results from the two transits produced a better understanding of the solar distance, but further refinement was undertaken in later transits.

The 1769 transit has a vital historical connection to Australia. Lieutenant James Cook was dispatched to Tahiti on HMS Endeavour to observe the transit. After a successful observation he was directed to search for the “great south land” thought to exist in the South Pacific Ocean and following that search he discovered and charted the east coast of Australia.

Scientific expeditions were spread across Australia to observe the 1874 transit and again for the 1882 transits, with many of these successfully recording the event.

The Transit of 6th June 2012

For the transit of 6th June 2012, Venus will take a little over six hours to travel across the face of the Sun. Venus must be above the horizon for the transit to be visible. Australia is one of the best places on Earth from which to observe the transit as the entire transit will be visible from eastern and central Australia. The transit will have started before sunrise for those observing from Western Australia.

The predicted path of Venus across the Sun’s disc is shown in the diagrams above for locations on the east coast of Australia. Venus will travel in a straight line across the Sun. However, because the Sun appears to rotate as it crosses the sky, Venus will appear to move in an inverted “U” shape when viewed from Australia.

Timing for the transit is given in terms of “contacts”.

First Contact (C1) Venus first touches the Sun.

Second Contact (C2) Venus is just inside the Sun on the way “in” (ingress).

Third Contact (C3) Venus is just inside the Sun on the way “out” (egress)

Fourth Contact (C4) Venus last touches the Sun

The table above gives the times of the transit for major Australian cities

Timing of the transit and the “black drop”

It is now possible to predict the timing of the transit contacts with great precision, because we now have accurate information on the distance to the planets and the Sun. When early astronomers were trying to measure the distance to the Sun, it was necessary to time the transit contacts as accurately a possible.  However they had great difficulty with this because of what has become known as the “black drop” effect.

This effect occurs immediately after second contact and again immediately before third contact when Venus appears to be connected to the Sun’s limb (edge) by a narrow dark zone. The black drop effect is thought to be due to image blurring from atmospheric distortion and equipment diffraction coupled with solar limb darkening.

The Scientific value of Transits

The original benefit of observing transits of Venus was to assist in determining the Astronomical Unit. Later on, transits were used to examine Venus’s atmosphere using spectroscopy.

Currently there is a great deal of scientific effort directed towards the search for exoplanets (planets outside the Solar System) and planetary transits across distant stars are the main method used to search for them. The 2004 and 2012 transits of Venus are providing a valuable benchmark and comparison with a known planet transiting a known star.

Safe Viewing of the Transit

Never look directly at the Sun or you may cause serious and permanent damage to your eyesight. Damage can occur without any feeling that there is something wrong as there are no pain receptors in the retina and the damage may not become apparent for some time.  There are several safe methods of observing the transit.

1. Projection using a SolarScope

A SolarScope is a purpose made projection device ideally suited for groups of people to observe the transit.  It works by projecting an image of the Sun onto a screen and it is the image that is viewed. Following the instructions, you can not look directly at the Sun.

2.  Observing using the internet

The transit can be safely viewed on the internet on webcasts. The transit will be broadcast live on the transit of Venus website www.transitofvenus.com.au (see below). 

3. Projection using Binoculars or a telescope

This involves projecting an image of the Sun through binoculars or a telescope onto a card. Note that with these projection methods you must always look only at the projected images (usually with your back towards the Sun).  You must ensure that the second tube of the binoculars and any telescope finderscope are blocked and no one looks through the telescope or binoculars as this could result in instant blindness. For information on how to use these projection methods safely see http://www.csiro.au/Outcomes/Understanding-the-Universe/Tracking-spacecraft/solar-viewer.aspx

Astronomy, Surveyors and Spatial Science

Astronomy is the oldest of the natural sciences dating back to ancient Chinese and Babylonian civilisations.  It can be defined as the science that deals with the universe beyond the Earth.

Surveyors’ interest in astronomy is very much a practical one as they, unlike the astronomer with a scientific interest in the stars, is chiefly interested in how they can make use of the stars for the purpose of his survey requirements.

Navigators, explorers and surveyors have used astronomy for determining, by astronomical observations, the positions of points on the Earth (latitude and longitude).  Early surveyors, not only had skills in bush craft, navigation and mapping, but they also required knowledge of mathematics and astronomy in addition to an understanding of the land and its potential.

Surveying skills were an essential component of early transit of Venus expeditions. It was often necessary to put more effort into the accurate geographic positioning of the observing location than into actually observing the transit and it was often the case that a person with surveying expertise would complete the mathematical analysis of the observations.

Over the years, the work of surveyors using astronomy has been greatly simplified by instrument improvements and more accurate timing techniques.  The need for the practical application of field astronomy in surveying and exploration has now declined as greater use is made of earth satellites (Global Positioning System or GPS) for determining location.

To read the more about the Modern Science of Surveying and the Historical use of Surveying and Astronomy in the early Exploration and Development of Australia. Click Here

Acknowledgements

Transit of Venus, Australia 2012 is a joint educational project of The Surveying and Spatial Science Industry, Astronomers Association Qld (AAQ), Science Teachers Association Qld (STAQ), contributing Teacher and Surveyor Volunteers Australia wide.

The Transit of Venus Project Management Committee is a group made up of Surveyors, Astronomers and Teachers dedicated to the advancement of Science, Maths, History and the promotion of Surveying as a career of choice in our schools, through the observation of our natural world and the study of our Australian heritage in science and exploration.

Financial assistance from the sponsors listed below is gratefully acknowledged.

Copyright

The material contained here in may be freely reproduced for non commercial purposes provided that the source is acknowledged.  For use for commercial purposes please contact info@transitofvenus.com.au  

All the information and images in this web site are protected by Creative Commons Copyright unless otherwise noted. Copyright partly to  AAQ, SSSIQ LSC, STAQ.