|
Students from high school might understand that vinegar for example is a weak acid compared to hydrochloric acid, but they never knew why. And you could then show them that with equilibrium, this is why. And all of a sudden they’re, 'oh, I’ve always known that I shouldn’t spill HCL on my hand, but I can spill vinegar on my hand and put it on my fish and chips'... Those sorts of moments can really... the students go ‘oh wow.’ Anonymous |
We do an awful lot of focus on teaching but realisticly, authentic assessment that actually engages the student, that’s a tougher ask... I set a lot of essay type assignments. I think we ought to do more of that in science. But when I started doing this I used to get very poor results and it’s taken me a little while to realise that the students weren’t understanding what the questions was. They didn’t understand what I meant by compare and contrast or discuss or argue for this. So increasingly now I use workshops to actually spend time with the students unpacking, what is this essay assignment about? What am I actually asking you to do? What do you need to think about? And not assuming that they know how to write an essay. |
|
You're learning a new language as well as new concepts. There's lots of vocab, so terms like electrophile and nucleophile and many others. So learning the language, learning the code that we use, the curly arrow code, and then starting to apply that in half a dozen or a dozen or so different contexts, different reactions. |
In the workshops, the workshop idea as we run them is that you are out and about and amongst the students all the time in those groups, seeing what’s going on in the groups, seeing how they’re answering their questions. They have set questions on sheets that they work through in groups and the groups of three just get one set. They’re all working on them together and you’re moving in and out and around among the groups and seeing how they’re going. In that circumstance you can quickly, having looked at three or four of your eight different groups, figure out where a particular issue would be and then that can be addressed on the board, it can be addressed with models or something like that. |
|
The actual curly arrow mechanisms are in a way themselves cartoons, how they map to the reality in the way that a Micky Mouse might map to real life. |
A lot of it is from colleagues. Conferences are fantastic. You know, your chemical education conferences. I do go to a lot of those. |
|
Students see equations and panic. Students struggle to transfer mathematical knowledge to chemical situations. Students silo knowledge and find it hard to relate concepts to actual systems. |
It’s continuous learning. I mean, what I used to try to say to students when I taught the acid-base stuff I’d say ‘look there are only about six types of problems and if you can solve one of them you can solve them all because they’re all the same.’ But what you’ve got to be able to do is look at the question and say to yourself ‘this is one of those types of questions therefore this is the way I should think about approaching it.’ So take the question, dissect it, decide what you’re being asked to do, decide what information you’re given, and then say ‘yeah that’s one of those types of questions, this is the way I should go about solving it.' If you can get that across to them, that it’s not a new universe every time you get a question, it’s simply a repeat universe of the same type of question... But many students tend to look at each problem as a new universe and start from the beginning again. Many students don’t see that there is a limited number of problems that can be asked on a certain topic. |
|
I don’t like to be in a position where I’m stood at the front talking for 50 minutes. I like to be a in a position where I’m engaging with students, where they’re engaging with each other, where there’s a buzz, where there’s things happening, and it’s an active environment. |
So I think we just, I used to give them, perhaps, 10 minutes to work on a problem, now I probably only give them two or three minutes. I find that concentrates them and prevents them just talking about the State of Origin or whatever it is that’s on their mind. We just need to keep changing the activity, rather than have extended activities... we want them to chat, but I think human beings won’t sit and chat about quantum mechanics for more than two or three minutes, they’ll get onto what they want for lunch. So it’s that balance. |
Support for this website has been provided by the Australian Government Office for Learning and Teaching. The views in this website do not necessarily reflect the views of the Australian Government Office for Learning and Teaching.
Unless otherwise noted, content on this site is licensed under the Creative Commons Attribution-ShareAlike 4.0 International License
For more information, please contact madeleine.schultz@qut.edu.au
