Sunday , November 24 2024
Home / Socialdem. 21st Century / Why are there so few Women in the Sciences?

Why are there so few Women in the Sciences?

Summary:
That is, why are there so few women in the hard STEM fields that involve high-level mathematical and spatial-visual cognitive ability?The Cultural Left, the Liberals and even some Conservatives have offered various explanations for this, but most of their theories are false or feeble, and some on the Cultural Left are basically unhinged conspiracy theories.As it happens, there is a straight-forward scientific explanation, and backed up by a mountain of scientific evidence.Unfortunately, it requires looking at the nature of IQ, or intelligence, in men and women, and, of course, this causes bilious, almost deranged howls of outrage in our culture, mostly from the Left.But, if you bear with me, you can understand in this short post what the vast majority of people don’t understand (and even

Topics:
Lord Keynes considers the following as important: , , , , ,

This could be interesting, too:

Nick Falvo writes Women’s homelessness

Bill Haskell writes An Opportunity for Women in an Unusual Job Situation

Bill Haskell writes Inclusion of Women in Clinical Trials Still an Issue

run75441 writes Childcare Can Increase the Labor Force

That is, why are there so few women in the hard STEM fields that involve high-level mathematical and spatial-visual cognitive ability?

The Cultural Left, the Liberals and even some Conservatives have offered various explanations for this, but most of their theories are false or feeble, and some on the Cultural Left are basically unhinged conspiracy theories.

As it happens, there is a straight-forward scientific explanation, and backed up by a mountain of scientific evidence.

Unfortunately, it requires looking at the nature of IQ, or intelligence, in men and women, and, of course, this causes bilious, almost deranged howls of outrage in our culture, mostly from the Left.

But, if you bear with me, you can understand in this short post what the vast majority of people don’t understand (and even refuse to understand or believe if they are told the truth).

The explanation is as follows:

(1) Culturally unbiased, fair IQ tests measure a person’s general faculty of intelligence, or what is now called Spearman’s g (general intelligence), which is clearly a unified, single cognitive trait of human beings. It appears that IQ (which measures general intelligence) is about 70–85% heritable in adults. The heritability of IQ rises with age, so that by the time one is an adult perhaps as much as 80% of IQ is genetic (Plomin and Spinath 2004; Plomin and Deary 2015). Even the liberal/leftist American Psychological Association (APA) admits the overwhelming evidence for this (see Neisser et al. 1996: 96, which accepts the 0.75 figure), and the democratic socialist James R. Flynn (after whom the “Flynn Effect” is named) – the leading environmentalist on gaps in IQ between population groups – himself accepts that current evidence shows that the heritability of IQ in adults is probably about 0.75 (Dickens and Flynn 2001: 346).

(2) When the IQs of a representative sample of men and women are plotted on a graph, it has been discovered that the distribution of IQs is not the same. See the graph of male and female IQ distribution here. As we can see, the manner in which the IQs of men and women fall on the graph differs: the IQ scores of women tend to cluster around the average (with less distribution in upper and lower ranges), while male IQs tend to be distributed less around the average and more in the upper and lower ranges as compared with the IQ distribution of women (see Hedges and Nowell 1995; Lubs 1999; Roberts 1945; Deary et al. 2007).

The average IQ for European people is about 100. So, for example, more European women have IQs that tend to cluster around 100 than the IQs of men do. This means that, numerically, there are far more high IQ men than there are women (also, it means there are far more low IQ men than there are women). Furthermore, it means that, numerically, there are fewer men of about average IQ than there are women.

(3) in addition, there is probably a small difference between the average IQ of men as compared with that of women (Lubs 1999; Johnson and Bouchard 2007; Nyborg 2005). Men appear to have a slightly higher average IQ, with about a 3–5 point advantage over women – though, admittedly, that is not large. It is still correct to say that the average IQs of men and women are not greatly different.

(4) by examining the sub-tests of IQ tests, we have discovered that – in terms of subsets and specific cognitive abilities – men and women also differ. Women tend, on average, to be much better at verbal abilities and language, but men tend on average to outperform women on numerical/mathematical and spatial cognitive abilities (Neisser et al. 1996; Wechsler 1958: 144–149; Lubs 1999; Johnson and Bouchard 2007; Johnson et al. 2008; Halpern et al. 2007).

The fact that the intergenerational Flynn effect – which has been working for about a hundred years – hasn’t eliminated these IQ differences between men and women should alert us to the truth that the differences are mostly genetic, not environmental.

So why are there so few women in the sciences?

First, science requires a high IQ. But the IQs of women tend to cluster around the mean of 100. Because many more men have IQs well above 100 than women, numerically there are not enough women to compete with men in the sciences. The slightly higher average IQ of men also contributes to this.

Secondly, science also requires a high level of mathematical and visual-spatial cognitive abilities, and here on average men outperform women.

Thirdly, science tends to attract human beings with an interest and ability in mathematics, spatio-visual abilities, and propensity to do abstract, impersonal work, which is much less focussed on human beings, or on social/verbal interaction between human beings. There are also general psychological and behaviour differences between men and women that affect each gender’s educational choices and career choices. Women are better at verbal/language abilities, and have a general propensity to choose professions where they can use those abilities. Thus the hard sciences appeal to men far more than to women. Therefore, generally speaking, even high IQ women tend not to be interested in the hard sciences.

When women do go into the sciences, it tends to be in biology or medicine, where they can use their superior verbal skills, while women tend to avoid other STEM fields that require a more intense mathematical and spatial cognitive ability.

By contrast, men excel at physics, chemistry and engineering, where greater numerical and spatial cognitive abilities are required (see Johnson et al. 2004).

The reality of few women in the hard sciences, then, has a mainly biological explanation, which is grounded in genetics and Darwinian evolution. In short, it is explained by the biological and genetic differences between men and women.

This is precisely why not only in the past but also to this day modern Western science and scientific discovery is driven mostly by high-IQ men, not women.

Of course, this biological explanation does not rule out influences from culture, institutional factors, discrimination, and government policy either. But these are likely to be minor or even trivial factors, while the major factor is biology.

Crucially, while none of this necessarily rules out the moral case for equality of opportunity for women, it totally destroys the feminist aim of total gender equality of outcome in all employment, professions and intellectual life. Moreover, it follows logically that the conventional explanation for the failure of women to attain a 50% presence in all higher professions because of some evil institutional gender discrimination and sexism in Western societies is manifestly absurd.

And nobody scientifically literate even in a layman’s sense should be surprised by any of this.

There are also other significant biological differences between men and women, as follows:

(1) on average, men are taller than women;

(2) on average, men have greater upper and lower body strength (with greater muscle mass, thicker tendons, and greater bone density) than women;

(3) on average, oxygen is better circulated around the male body because of higher haemoglobin levels so that, physiologically, men are better at physical activity than women;

(4) on average, men have greater stamina (with higher levels of anabolic steroids);

(5) on average, men have greater maximal oxygen uptake capacity than women;

(6) on average, men are more competitive (because of higher levels of testosterone) and more aggressive than women.

This is also why women, on average, simply cannot work at certain jobs that require hard, strenuous, extended physical labour in the way that men can.

Once again, these facts of human social life are explained largely by biology and genetics.

But try saying this in public, or in academia, or in the media. The response will be a hysterical, vicious, witch-hunting wave of public abuse, persecution and, if the person in question is of high-profile or status, probably the ruin of that person’s career.

This is how anti-scientific and insane our civilisation has become. The fault lies mostly with the Cultural Left and feminists too. But the mainstream Conservatives aren’t any better either.

Modern conservatives – who are rightly derided as “Cuckservatives” (from “cuckold conservatives”) by their own enemies on the right – are so useless that they cannot even defend basic scientific truths about the biological differences between men and women.

BIBLIOGRAPHY
Bouchard, Thomas J., Lykken, David T., McGue, Matthew, Segal, Nancy L. and Auke Tellegen. 1990. “Sources of Human Psychological Differences: The Minnesota Study of Twins Reared Apart,” Science n.s. 250.4978: 223–228.

Deary, Ian J., Irwing, Paul, Der, Geoff, and Timothy C. Bates. 2007. “Brother–Sister Differences in the g Factor in Intelligence: Analysis of Full, Opposite-Sex Siblings from the NLSY1979,” Intelligence 35.5: 451–456.

Dickens, William T. and James R. Flynn. 2001. “Heritability Estimates Versus Large Environmental Effects: The IQ Paradox Resolved,” Psychological Review 108.2: 346–369.

Halpern, Diane F., Benbow, Camilla P., Geary, David C., Gur, Ruben C., Hyde, Janet Shibley and Morton Ann Gernsbacher. 2007. “The Science of Sex Differences in Science and Mathematics,” Psychological Science in the Public Interest 8.1: 1–51.

Hedges, Larry V. and Amy Nowell. 1995. “Sex Differences in Mental Test Scores, Variability, and Numbers of High-Scoring Individuals,” Science n.s. 269.5220: 41–45.

Johnson, W., Bouchard, T. J., Krueger, R. F., McGue, M. and I. I. Gottesman. 2004. “Just one g: Consistent Results from Three Test Batteries,” Intelligence 32.1: 95–107.

Johnson, Wendy and Thomas J. Bouchard Jr. 2007. “Sex Differences in Mental Abilities: g masks the Dimensions on which they lie,” Intelligence 35.1: 23–39.

Johnson, Wendy, Carothers, Andrew and Ian J. Deary. 2008. “Sex Differences in Variability in General Intelligence: A New Look at the Old Question,” Perspectives on Psychological Science 3.6: 518–531.

Lubs, H. A. 1999. “The Other Side of the Coin: A Hypothesis Concerning the Importance of Genes for High Intelligence and Evolution of the X chromosome,” American Journal of Medical Genetics 85.3: 206–208.

Neisser, Ulric, Boodoo, Gwyneth, Bouchard Jr., Thomas J., Boykin, A. Wade, Brody, Nathan, Ceci, Stephen J., Halpern, Diane F., Loehlin, John C., Perloff, Robert, Sternberg, Robert J., and Susana Urbina. 1996. “Intelligence: Knowns and Unknowns,” American Psychologist 51.2: 77–101.

Nyborg, H. 2005. “Sex Related Differences in General Intelligence g, Brain Size, and Social Status,” Personality and Individual Differences 39.3: 497–509.

Plomin, R. and F. M. Spinath. 2004. “Intelligence: Genetics, Genes, and Genomics,” Journal of Personality and Social Psychology 86.1: 112–129.

Plomin, R. and I. J. Deary. 2015. “Genetics and Intelligence Differences: Five Special Findings,” Molecular Psychiatry 20.1: 98–108.

Roberts, J. A. Fraser. 1945. “On the Difference between the Sexes in Dispersion of Intelligence,” The British Medical Journal 1.4403: 727–730.

Schmidt, F. L. and J. E. Hunter. 2004. “General Mental Ability in the World of Work: Occupational Attainment and Job Performance,” Journal of Personality and Social Psychology 86.1: 162–173.

Wechsler D. 1958. The Measurement of Appraisal of Adult Intelligence (4th edn.). Williams & Wilkins Company, Baltimore.

Lord Keynes
Realist Left social democrat, left wing, blogger, Post Keynesian in economics, but against the regressive left, against Postmodernism, against Marxism

Leave a Reply

Your email address will not be published. Required fields are marked *