Next time someone asks you “Are men and women’s brains different?”, you can answer, without hesitation, “Yes”. Not only do they tend to be found in different types of bodies, but they are different sizes. Men’s are typically larger by something like 130 cubic centimeters.
Not only are they actually larger, but they are larger even once you take into account body size (i.e. men’s brains are bigger even when accounting for the fact that heavier and/or taller people will tend to have bigger heads and brains, and than men tend to be heavier and taller than women). And this is despite the fact that there is no difference in size of brain at birth – the sex difference in brain volume development seems to begin around age two. (Side note: no difference in brain volume between male and female cats).
But is this difference in brain volume a lot? There’s substantial variation between individuals, as well as across the individuals of each sex. What does ~130cc mean in the context of this variation? One way of thinking about it is in terms of standardised effect size, which measures the size of a difference between the two population averages in standard units based on the variation within those populations.
Here’s a good example – we all know that men are taller than women. Not all men are taller than all women, but men tend to be taller. With the effect size, we can precisely express this vague idea of ‘tend to be’. The (Cohen’s d) effect size statistic of the height difference between men and women is ~1.72.
What this means is that the distribution of heights in the two populations can be visualised like this:
With this spread of heights, the average man is taller than 95.7% of women.
Estimates of the effect size of total brain volume vary, but a reasonable value is about ~1.3, which looks like this:
This means that the average man has a larger brain, by volume, than 90% of the female population.
For reference, psychology experiments typically look at phenomena with effet sizes of the order ~0.4 , which looks like this:
And which means that the average of group B exceeds 65.5% of group A.
In this context, human sexual dimorphism in brain volume is an extremely large effect.
So when they ask “Are men and women’s brains different?”, you can unhesitatingly say, “yes”. And when they ask “And what does that mean for differences in how they think” you can say “Ah, now that’s a different issue”.
Link: meta-analysis of male-female differences in brain structure:
Kristoffer Magnusson’s awesome interactive effect size visualisation
Previously: gendered brain blogging
Edit 8/2/17: Andy Fugard pointed out that there are many different measures of effect size, and I only discuss/use one: the Cohen’s d effect size. I’ve edited the text to make this clearer.
Edit 2 (8/2/17): Kevin Mitchell points out this paper that claims sex differences in brain size are already apparent in neonates