Friday, August 21, 2015

Alkanols vs Alkanals

Question: Differentiate between alkanols and alkanals.

Answer: Alkanols and alkanals are both organic (carbon containing) compounds but they have different functional groups.
Alkanols contain the OH (hydroxyl) functional group.
Alkanals contain the C=O (carbonyl) functional group on a terminal (end) carbon atom of the carbon chain.
Because they have different functional groups they undergo different chemical reactions and will have different physical properties.
The physical and chemical properties of alkanols, for example, can be found at AUS-e-TUTE's page on Properties of Alkanols.


Thursday, August 20, 2015

Tonight's the Night

On Friday 21 August 2015 Mt. Stromlo Observatory will be leading Australia in attempting to break two Guinness World Records - Most People Stargazing at a Single Site (Canberra) and Most People Stargazing Across Multiple Sites in a Country (Australia).
Go to http://www.anu.edu.au/events/mt-stromlo-observatory-world-record-night for more information.

Not in Canberra?
No problems.
There are more than 40 sites registered to take part in the attempt to break the World Record for Most People Stargazing Across Multiple Sites in a Country.
Go to http://rsaa.anu.edu.au/world-record-stargazing to learn more.

Haven't got a telescope? Bring binoculars along instead (they will still count for stargazing!).

UPDATE 23/8/2015
1,869 people braved the cold weather in Canberra to set a new Stargazing record surpassing the previous record of 649 by more than 1,000 people!

A second world record was being attempted for the most people stargazing at multiple sites around Australia, and while estimates of around 10,000 people have been suggested which would beat the previous record of 3,007, we are still waiting for exact numbers and confirmation.



Monday, August 3, 2015

Chemical Equilibrium

To understand chemical equilibrium you need to realise that
  1. chemical reactions that are in equilibrium DO NOT go to completion. 
  2. "reactants" and "products" are all present at equilibrium
  3. the "things" that are in equilibrium are the "reactants" and "products" whose concentrations can be changed (that is, substances that exist in solution).
  4. equilibrium is the state in which the rate of the forward reaction (reactants → products) is the same as the reverse reaction (products → reactants
Knowing this, we can then write:
And then
Which at equilibrium, results in an expression for the
Which can be used to: