## Sunday, June 29, 2014

### Candlelight Records sampler: "Legion III"

Hat tip to No Clean Singing for pointing to this sampler of tasty new metal. In particular, the last track, by UK band Xerath, is kinda addictive.

## Saturday, June 28, 2014

### Vignettes of modernia

A crushed bottle of Five Hour Energy in the parking lot of Ikea.
At ten in the morning on a Saturday.

## Thursday, June 19, 2014

### Knowledge Transfer

A quick note, stemming from discussions at the new job about depth of knowledge (on the part of elementary/middle school students and their teachers) and related questions. One of those related questions is knowledge transfer: the ability to take knowledge from one context and apply it in a related context. The first hurdle there, of course, is recognizing that the contexts are related; the second is knowing what to keep and what to change, as the contexts change.

A complicated link of half-remembered references brought me to a paper (PDF) by one Michelle Perry describing an experiment done with 4th and 5th graders. The children in the experiment were selected based on knowing basic arithmetic (addition and multiplication under 20) but not being able to correctly fill in a blank in a problem like
$4 + 6 + 3 = \_\_ + 3$
which tests the conception of the $$=$$ sign as a statement of equivalence (correct) or an instruction to go forth and compute (incorrect). Students were given either direct instruction in the procedure to follow (add up the left hand side and then subtract the known term on the right from that sum), or given a purely conceptual instruction with no explicit steps.

What is really interesting is the result: both groups did roughly as well on post-instructional assessment -- but only on the problems that used addition, and so were exactly analogous to the problem they'd been instructed on. The post-test, however, also included problems that required the same principle, but used multiplication instead:
$3 \times 2 \times 3 = \_\_ \times 3$
In these problems, the children who had been taught a procedure "followed" it by doing the multiplication on the left and then subtracting the known "term" on the right from the product! Around 40% of the children who had been taught the principle underlying the problem successfully transferred knowledge to the unfamiliar setting, compared to 10% of the "procedure" group.

The remainder of the study is interesting too: their results indicate that teaching concept-plus-procedure actually undercuts transfer: basically if you teach a concept and then immediately teach a procedure for it, students' conceptual understanding gets washed out by the procedural knowledge.

## Tuesday, June 10, 2014

### Be prepared

Note to self: when buying a can of beans to make into part of dinner, make sure that your new apartment has the use of a can opener.