Climate Sceptic Changes His Mind

Monday, July 30th, 2012 | STEPHEN BRONI | No Comments

THE Earth’s land has warmed by 1.5 degrees Celsius in the past 250 years and ”humans are almost entirely the cause”, according to a scientific study set up to address climate sceptic concerns about whether human-induced global warming is occurring.

Richard Muller, a climate sceptic physicist who founded the Berkeley Earth Surface Temperature (BEST) project, said he was ”surprised” by the findings. ”We were not expecting this, but as scientists, it is our duty to let the evidence change our minds.”

He said he considered himself a ”converted sceptic” and his views had received a ”total turnaround” in a short space of time.

Read more: http://www.smh.com.au/environment/climate-change/climate-results-convert-sceptic-let-the-evidence-change-our-minds-20120730-23769.html#ixzz224MFD1ID

Great resource for Processes and Patterns of Evolution

Thursday, July 19th, 2012 | smida55p | No Comments

This is a one of my favourite websites for simple, clear and valid content for learning about evolutionary processes and patterns from Berkeley:

http://evolution.berkeley.edu/evosite/evo101/index.shtml

Heaps of wonderful images, explanations and examples for revision or note-taking.

Our Far South Roadshow

Tuesday, July 17th, 2012 | hamvi58p | No Comments

Earlier this year Gareth Morgan led the Our Far South expedition down through the subantarctic islands and Southern Ocean to Antarctica. Among the crew were 10 of New Zealand’s top experts in the region and 40 everyday New Zealanders. The purpose of the trip was to raise awareness about ‘Our Far South’, its importance and the issues facing the area including climate change, the race for resources and conservation. One of the projects that has come out of the trip is the so-called Million Dollar Mouse campaign to eradicate mice from the Antipodes Islands. See www.milliondollarmouse.org.nz
What they discovered on the voyage was fascinating and Gareth is now embarking on a national speaking tours to share his experience and further our aim of raising awareness about the region. All proceeds from the roadshow will go to the Million Dollar Mouse campaign.
The National Tour starts in Tauranga on 30th July, visits 9 cities throughout New Zealand, ending in Invercargill on 16th August. 
More details and tickets are available on the website. www.ourfarsouth.org/events/national-tour.aspx

It’s Study Time…. again

Monday, July 16th, 2012 | hamvi58p | No Comments

As a teacher I can’t reccommend enough the need to revise, be well prepared and confident in the lead up to your school ‘practise’ exams and your external NCEA exams.  The Studyit website has a lot of useful information and resources such as study timetables, tips, advice etc to help you get started and to help you feel more in control during the next few months. The sooner you start, the more prepared you will be!

Don’t forget that we are offering on-line tutorials to all 2012 OUASSA students for Biology, Chemistry and Physics as well as Scholarship – sit in and listen, bring your questions and make the most of the tutorial support available to YOU!

You have been emailed a Google Form to complete regarding tutorial support – so get it filled out asap and we can make a start scheduling your on-line support!

In the mean time…. check out Studyit. http://www.studyit.org.nz/studyandexam/study.html

Study advice

Be prepared

  • Go to all revision sessions for your subjects.
  • Have up-to-date course notes. If you don’t, ask your teachers for the latest versions.
  • Practise assessments and examination papers.
  • Know what is required for each achievement standard.

Planning

  • Set regular routines of study.
  • Choose a quiet, airy, well-lit place to study.
  • Set study goals
    • Daily goals
    • Weekly goals
    • Long-term goals
  • Know your deadlines.
  • Make a study timetable
  • Do a small amount of study on each subject every night.

Relax

  • Have lots of breaks eg break every 50 minutes for 10 minutes.
  • Eat healthily, sleep regularly and exercise.
  • Reward yourself regularly.
  • If stressed, ask for help. Your teachers want you to succeed; ask them!

Physics at the University of Otago & Physics World

Friday, July 13th, 2012 | hamvi58p | No Comments

For those of you interested, here is the link to the physics outreach page at the University of Otago.  There are useful links aimed at teachers but these links will also be useful to many of our OUASSA students also.  http://www.physics.otago.ac.nz/node/89 –

Physics World has published its Physics and Sport issue in the run-up to the Olympics. It can be downloaded for free for a limited (but unspecified) time from http://physicsworld.com/cws/download/jul2012.

 

“Chemistry Matters” – Once more into the world of hydronium and logarithm; but never mind the mole

Wednesday, July 11th, 2012 | hamvi58p | No Comments

Once more into the world of hydronium and logarithm; but never mind the mole

By Associate Professor Allan Blackman
This article was orignally published in the Otago Daily Times on Wednesday 4 July 2012.

<!–Tel: +64  3  479 7931

–><!–Location: Science II, 5n4

–><!–blackman@chemistry.otago.ac.nz

–>

Last month I attempted to explain the meaning of pH in around 500 words. To my chagrin, I found that this was an impossible task. The column was littered with arcane terms like ‘hydronium ion’ and ‘logarithm’, and numbers like 0.0000001 and 1 × 10-7, things that do not make for easy reading. So let’s take up where I left off and see if I can’t do a better job in explaining what pH actually means.

What was hopefully obvious from last month’s column was that pH is far from a simple concept. For starters, it is a logarithmic function. In simple terms, this means that a change of 1 pH unit corresponds to a 10-fold change in the hydronium ion concentration – at the risk of upsetting the chemistry purists, one could say that a solution of pH 3 is 10 times as acidic as one of pH 4. To put this in a more understandable context, suppose we had 1 litre of a solution of pH 3 – if we added 9 litres of water to this (i.e. a 10-fold dilution) the final solution would have a pH of 4.

The useful pH scale ranges from 0 (a very acidic solution) to 14 (a very basic solution). Because of its logarithmic nature, this means that it spans a hydronium ion concentration range of 1 × 1014, or 100,000,000,000,000, between these pH values. To give some idea of the pH values of common substances, lemon juice, for example, has a pH around 2.3, orange juice, around 3.5, milk, around 6.7, seawater, around 8, household ammonia, around 11.5, and oven cleaner can be as high as 13, depending on its composition. Although it is supposedly common knowledge that pure water at 25 °C has a pH of 7.00, measurement of the pH of a sample of any water under all but the most stringently controlled conditions will yield a value somewhere between 5 and 6; this is because the water sample will contain dissolved carbon dioxide from the air, which renders the water very slightly acidic through formation of small amounts of ‘carbonic acid’.

So this is where we get to the importance of pH. Nature has evolved so that many of its important chemical reactions, particularly those that occur in living systems, are optimised to occur at particular pH values. If the pH of the system becomes too high or too low, then critical chemical reactions are impeded, and this can be fatal for the organism. For example, normal human blood has a pH between 7.35 and 7.45 – if our blood pH lowered to 7 or increased to 8, we would probably die. Nature has therefore developed a series of chemical species we call buffers, which ensure that the pH of blood does not change significantly.

Sadly, despite all I have written here, a true appreciation of exactly what pH means is contingent on understanding the mole, a chemical concept which is usually first introduced in 6th form (Year 12) Chemistry and is not necessarily understood by all even when University rolls around. My explanation of pH has only scratched the surface and is extremely simplistic – but hopefully it had given you some idea of what pH is all about.

Of course, the fact that pH is conceptually difficult doesn’t stop advertisers telling us that their clients’ products are ‘pH balanced’ ‘pH neutralising’, and other such meaningless terms. Treat all such claims with caution.