A previous post discussed learning disability definition
steps. In order to implement step 3 we have
to be familiar with findings about links between poor math functioning and
cognitive abilities.
A few research studies looked into these links in the general
population. Some studies used the
standardization sample of the WJ3 test.
This test has two parts: a
cognitive part (WJ3COG) which measures CHC abilities and an achievement part
(WJ3ACH) which measures reading and math.
Studies which looked into the correlations between children's
scores in math tests (in the WJ3ACH) and cognitive abilities, found fluid ability, crystallized
knowledge, working memory (a narrow ability within short term ability in
WJ3) and processing speed
to be related to math achievement. There
are also studies that found that long term storage and retrieval is related to
math achievement.
This paper (available for free in the net):
PROCTOR, B, E., FLOYD R. G. AND SHAVER, R. B.
CATTELL-HORN-CARROLL BROAD COGNITIVE
ABILITY PROFILES OF LOW MATH ACHIEVERS. Psychology in the Schools, Vol.
42(1), 2005
assessed CHC abilities of children who have poor achievement in math. Children who had low scores (one or more
standard deviation below the mean) on the math tests of the WJ3ACH (but had an
average or higher score on the reading tests of the WJ3ACH) participated in the
study. This group was compared to a
control group of children that had average or higher scores on the math and
reading tests of the WJ3ACH),
The math tests included two test clusters. The math calculation skills cluster
(problems in the four math operations, and application of math rules like commutative
rule). The math reasoning cluster included tests of verbal
math problems, application of rules and axioms, relations, and math concepts.
Math calculation skills: there was no difference in
CHC abilities between the low math calculation skills group and the average achieving group! None of the CHC abilities of the low math calculation
skills group was significantly low compared to the population mean.
Math reasoning: the low math reasoning
group had significantly lower scores in cognitive abilities, in general, compared
to the control group. This might point
to group differences in g.
The fluid
ability of the low math reasoning group was significantly lower that the
population mean. The crystallized
knowledge of the low math reasoning group was lower than that of the control
group but was not
lower than the population mean.
Short term memory, processing speed and long term memory were not
found in this study to be related to math calculation and to math reasoning
skills.
It seems to me, that in order to receive more significant results,
maybe it would have been better to choose children whose math performance is
lower than the 7-10th percentile (not the 16th percentile). This is the group which is usually chosen in
dyscalculia studies. In addition, as the
authors also write, it would have been better to include children who perform
poorly both in math and reading. Many children
with math problems also have difficulties with reading. Because this study included children with
math problems only, it might have not covered the entire range of poor math achievers.
This study found no pattern of low cognitive abilities among
children with low math calculation skills. It's possible that many children who are
referred to us with poor math achievement are not learning disabled in
math. We know that poor math achievement
can be a result of exclusionary factors like lack of experience, low motivation,
anxiety, bad teaching or inappropriate math books. I believe that exclusionary factors influence
math more than reading. Addressing exclusionary
factors may solve the math problems of some children in this group.
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