Texts for “After Math Literacy”

A recent post here did a brief review of the 3 available Math Literacy textbooks (http://www.devmathrevival.net/?p=2804).

That post quickly led to the natural question:  What about books for courses AFTER math literacy?  (Thanks, Eric!)

Ideally, we would have 3 books for “Algebraic Literacy” … a course designed to replace intermediate algebra.  However, much of the Math Literacy work is still stuck in a pathways approach, where Math Literacy is only used for “non-STEM” students.  I don’t think this pathways emphasis can survive that long (see http://www.devmathrevival.net/?p=2779) In this period, however, most uses of math literacy courses is as an alternative to beginning algebra for those who “don’t need algebra” (as if that was possible or desirable).

To review, here is the New Life vision of basic mathematics courses at colleges & universities:

 

 

 

 

 

 

 

 

 

 

 

 

 

So far, the reform work in our college curriculum has been limited, with the most systemic work being done at the Math Literacy level.  Many people are holding off on Algebraic Literacy until there is a textbook, and publishers are interested in creating those texts.  We need to achieve a higher level of interest before those “AL” books will be developed and published.  Authors want to write them, publishers are willing to support them … IF the market interest is there.  Lesson:

Always tell publishers that you want to see textbooks for Algebraic Literacy, and that Algebraic Literacy is not an intermediate algebra with a new ‘cover’.

There are colleges who are implementing Math Literacy for all students, replacing beginning algebra in their curriculum (mine, for example).  Most often, this means the use of a typical intermediate algebra book for the course following math literacy … a bit like getting to use an iPhone 7 one semester and then being handed a rotary phone the next semester.  If only there were better options!!  [Some folks use the “Math in Action” materials, which are not Algebraic Literacy at all … they just provide great context and applications.]

Both publishers with good Math Literacy texts (McGraw Hill, Pearson) have considered algebraic literacy books; they may even have them ‘under contract’ (I would not necessarily know about that).  Keep telling them that you really want an algebraic literacy book, and they will develop them.

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Comparing Texts for Mathematical Literacy

The “Mathematical Literacy” course has been taught at colleges for about 5 years now, with hundreds of colleges involved.  For this post, I will look at the alternative textbooks for Math Lit with some quick comparisons.

First, I’ve got to point out that some books are being marketed for “Pathways” with very little change in content.  Math Literacy is not just a name for a modified old course; Math Literacy is the first new course in developmental mathematics with content drawn from modern standards, with an emphasis on reasoning and communication.  This comment applies to books from most major publishers; in particular, Cengage and Hawkes do not have a Math Lit textbook (though they do have books for pathways).

I recognize 3 textbooks available which faithfully implement the Math Literacy learning outcomes (whether as Math Lit, Quantway™, or Foundations of Mathematical Reasoning).  Quantway courses run differently from the others in the sense that colleges join the collaborative, and use shared materials & online system; colleges not in the collaborative do not have access to those same materials.  However, the Quantway materials were the basis for the Foundations of Mathematical Reasoning (FMR) from the Dana Center.

If you want the ‘most different’ materials, you’d choose the FMR materials.  There is not really a ‘textbook’ with FMR; the lessons are a series of contexts and problems with the mathematics tied in to those situations.  The core of FMR is the classroom work (highly group based).  The lessons are presented in ’25-minute’ pieces, and the instructor has a set of supportive materials including suggestions for processes.  A number of colleges (mostly in Texas) are using the FMR materials as part of a larger project; other colleges adopt them as they would any textbook.  (Again, the Quantway materials are very similar to FMR but  only used ‘in the network’.)

The Almy/Foes Math Lit shares some of those properties.  The lessons are highly group based, focused on contexts and problems; instructors have support materials.  The  Almy/Foes structure is not as finely grained as FMR, which I think fits what most faculty prefer (though I have been known to be wrong … on occasion!).  This was the “original” math literacy text, written before most of us thought about offering the course.  Unlike the FMR materials, the Almy/Foes text is definitely geared towards the non-STEM pathway.  If you are pretty sure that you can support a discreet path for non-STEM, this text is a good alternative.

The Sobecki/Mercer “Pathways to Math Literacy” combines some of those properties within a slightly more traditional structure.  The lessons employ significant group work, but also significant whole-class work.  This book includes slightly more mathematical content, and a little less divergent lesson work (where students might create 4 different methods to ‘solve’ a problem).  Instead, the Sobecki/Mercer text tends to keep a goal or outcome in mind.  If your dev math program is highly adjunct-based (as mine is), this text probably is a good choice.  As does FMR, the text does not assume that all students are non-STEM — though the contexts are generally non-STEM.

Each of these sets of materials has advantages, and they all deliver the core learning outcomes of Math Literacy.  All 3 are doing well in the market, from what I can tell.

If you have specific questions about a specific set of materials, I can try to help get an answer.

 
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Maybe it’s Not “Men of Color”: Equity in College Mathematics, data part II

A recent post here looked at a summary of pass rates based on “Pell eligibility” and race, where Pell eligibility is used as an indicator of possible poverty.  Take a look at http://www.devmathrevival.net/?p=2791 .  The basic message was that the outcomes for black students was significantly lower and that part of this difference seems related to the impact of poverty.

Today, I wanted to follow that up with some similar data on the role of gender (technically, ‘sex’) in the outcomes of students, accounting for poverty and race.  This seems especially important given the national attention to “men of color” (http://cceal.org/about-cceal/).  As a social justice issue, I agree that this focus on MEN of color is important given the unequal incarceration rates.

However, this is what I see in our data for all Pell eligible students in math courses:

 

 

 

 

 

 

 

 

As for the prior chart, this reflects data over a 6 year period … which means that the ‘n’ values for each group are large (up to 10000 for ‘white’).  Given those sample sizes, almost any difference in proportions is statistically significant.  All three comparisons ‘point’ in the same direction — females have higher outcomes than males, within each racial group.

However, notice that the ‘WOMEN” of color have lower outcomes than men “without color”  (aka ‘white’). A focus on men of color, within mathematics education, is not justified by this data.  Here is what I see …

  • There is a ‘race thing’ … unequal outcomes for blacks and hispanics, compared to white students.
    [This pattern survives any disaggragation by other factors, such as different courses and indicators of preparation.]
  • There is a ‘sex thing’ … unequal outcomes for men, compared to women.
    [This difference is smaller, and does NOT survive some disaggregations.]

There is a large difference in ‘effect size’ for these; the black ‘gap’ in outcomes approaches 20 percentage points (about  2/3 of the white pass rate), while the ‘male’ gap is 5 percentage points or less (90% to 96% of the female pass rate).  In other words, it does not help to be a woman of color; it just hurts less than being a man of color.

I think that pattern fits the social context in the United States.  The trappings of discrimination have been fashioned in to something that looks less disturbing, without addressing the underlying problems.  We have actually retreated in this work, from the period of 40 to 50 years ago; there was a time when college financial aid was deliberately constructed as a tool in this work, and this was effective from the information I have seen.  Current college policies combined with the non-supportive financial aid system results in equity gaps for PEOPLE of color.

Most of us have a small role in this work, but this does not mean the role is unimportant.  If your department and institution are critiquing your impact on people of color, terrific; I hope we have an opportunity to share ideas on solutions.  If your department or institution are not deeply involved in this work, why not?  We have both the professional and moral responsibility to consider the differential impact of our work, including unintended consequences.

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Equity in College Mathematics: What does the data tell us about poverty and race?

I am very proud of my department for our decision to do some serious work on equity.  We are having focused discussions at meetings and in hallways, we are bringing up equity in other discussions, and have examined quite a bit of data.  I want to highlight a little bit of that data.  This post will focus on the role of poverty in the pursuit of equity in college mathematics.

Like many colleges, my institution provides access to a centralized data reporting function (“Argos” in our case).  We can use this database to extract and summarize data related to our courses, and the database includes some student characteristics (such as race, ethnicity, and sex … self-reported).  In addition, the database connects to direct institutional records dealing with enrollment status and financial aid.  The primary piece of data from the financial aid record is a field called “Pell Eligible”.

As you know, Pell Grants are based on need; this usually means an annual income of less than $30,000.  Students are not required to apply, even if they would qualify for the maximum award.  However, we do know that students do not receive a Pell ‘award’ unless they have a low income.  For us, this “Pell Eligibility” is the closest thing we have to a poverty indicator.

When we summarize student grades by race and Pell Eligibility (across ALL courses in our department), this is the result.

 

 

 

 

 

 

 

 

 

This graph has two “take aways” for me.  First, poverty is likely associated with lower rates of passing.  Secondly, the impact of race on outcomes is even stronger.  Note that the “Pell” group is lower than the non-Pell group for all races, and that the “Black non-Pell” group has lower outcomes than the non-Pell hispanics or whites.

The situation is actually worse than this chart suggests.  The distribution of ‘poverty’ (as estimated by Pell eligibility) is definitely unequal: 70% of the black group is Pell eligible, while only 40% of the white group is Pell eligible (with hispanics at a middle rate).

I am seeing a strong connection between our goal of promoting equity and the goals of social justice.  As long as significant portions of our population live in poverty, we will not achieve equity in the mathematics classroom … awarding ‘financial aid’ does not cancel out the impacts of poverty.  In addition, as long as some groups in our population are served by under-resourced and struggling schools, we will not achieve equity in the mathematics classroom.  This latter statement refers to the fact that many states have policies like Michigan’s which allow those with resources to have a choice about ‘better schools’, while limiting state funding for public schools (and simultaneously attacking the teaching profession).

In our region, the majority of the black students attending my college came from the urban school district.  This urban school district had a proud history through the 1980s, with outcomes equal to any suburban school in the area.  However, dramatic changes have occurred … even though that district has made significant progress in recent years, there is no doubt that the urban schools are not preparing students for college.  Poverty plays a role within that school district, and the interaction between race and poverty is again unequal: more blacks live in poverty within the city than other races.

The social justice movement seeks to provide all groups with equal access to upward mobility, combined with a reasonably high probability of escaping poverty, based on a presumption of effort.  Barriers to progress are addressed as systemically as possible.  College mathematics is currently one of the barriers to progress in social justice.  Modern curricula do not solve this barrier, given the data I’ve seen (though we are early in that process of change).

If we see our role as separate from equity and social justice, we are enabling the inequities to continue.  This is a set of issues that we can not remain silent about.  Even if we are not committed to social justice, we need to work on these barriers for the good of our profession.  You might begin by discussing social justice issues with your friends or colleagues who teach sociology or anthropology, quite a few of whom have a background in ‘social problems’.

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