Keith S. Taber
Sandra was a participant in the Understanding Science Project. When I interviewed Sandra about her science lessons in Y7 she told me "I've done changing state, burning, and we're doing electricity at the moment". She talked about burning as being a chemical change, and when asked for another example told me dissolving was a chemical change, as when salt was dissolved it was not possible to turn it back to give salt grains of the same size. She talk me that is the water was boiled off from salt solution "you'd have the same [amount of salt], but there would just be more particles, but they'd be smaller".
As Sandra had referred to had referred to the salt 'particles' being smaller,(as as she had told me she had been studying 'changing state') I wondered if she had bee taught about the particle model of matter
So the salt's got particles. The salt comes as particles, does it?
Yeah.
Do other things come as particles?
Everything has particles in it.
Everything has particles?
Yeah.
But with salt, you can get larger particles, or smaller particles?
Well, most things. Like it will have like thousands and thousands of particles inside it.
So these are other types of particles, are they?
Mm.
So although Sandra had referred to the smaller salt grains as being "smaller particles", it seemed he was aware that 'particles' could also refer to something other than the visible grains. Everything had particles in. Although salt particles (grains?) could be different sizes, it (any salt grain?) would have a great number ("like thousands and thousands") of particles (not grains – quanticles perhaps) inside it. So it seemed Sandra was aware of the possible ambiguity here, that there were small 'particles' of some materials, but all materials (or, at least, "most things") were made up of a great many 'particles' that were very much smaller.
So if you look at the salt, you can see there's tiny little grains?
Yeah.
But that's not particles then?
Well it sort of is, but you've got more particles inside that.
"It sort of is" could be taken to mean that the grains are 'a kind of particle' in a sense, but clearly not the type of particles that were inside everything. She seemed to appreciate that these were two different types of particle. However, Sandra was not entirely clear about that:
So there's two types are of particles, are there?
I don't know.
Particles within particles?
Yeah.
Something like that, is it?
Yeah.
But everything's got particles has it, even if you can't see them?
Yeah.
So if you dissolved your salt in water, would the water have particles?
Ye:ah.
'cause I've seen water, and I've never seen any particles in the water.
The part¬, you can't actually see particles.
Why not?
Because they're too small.
Things can be too small to see?
Yeah.
Oh amazing. So what can you see when you look at water, then? 'cause you see something, don't you?
You can see – what the particles make up.
Ah, I see, but not the individual particles?
No.
Sandra's understanding here seems quite strong – the particles that are inside everything (quanticles) were too small to be seen, and we could only see "what the particles make up". That is, she, to some extent at least, appreciated the emergence of new properties when very large numbers of particles that were individually too small to see were collected together.
Despite this, Sandra's learning was clearly not helped by the associations of the word 'particle'. Sandra may have been taught about submicroscopic particles outside of direct experience, but she already thought of small visible objects like salt grains as 'particles'. This seems to be quite common – science borrows a familiar term, particle, and uses it to label something unfamiliar.
We can see this as extending the usual everyday range of meaning of 'particle' to also include much smaller examples that cannot be perceived, or perhaps as a scientific metaphor – that quanticles are called particles because they are in some ways like the grains and specks that we usually think of as being very small particles. Either way, the choice of a term with an existing meaning to label something that is in some ways quite similar (small bits of matter) but in other ways very different ('particles' without definite sizes/volumes or actual edges/surfaces) can confuse students. It can act as an associative learning impediment if students transfer the properties of familiar particles to the submicroscopic entities of 'particle' theory.
