Welcome back to another episode of the

CSK8 podcast my name is jared o'leary

in this week's episode i'm going to be

unpacking some scholarship in particular

i'm unpacking the paper titled

interested in class but not in the

hallway colon

a latent class analysis lca of 2015 to

cs for all student surveys and this

paper is written by

kenneth graves and leanne delizer and as

always you can find in the show notes a

link directly to

this paper as well as links to the

author google scholar profiles of any

scholars works that i unpack in this

particular podcast

you can find them by clicking the link

in the app that you're listening to this

on or simply going to jaredoleary.com

and then clicking on the show notes for

this particular episode

alright so here's the abstract for this

paper quote

computer science cs education

initiatives often use measures of

interest to assess outcomes

although appropriate for initiatives

meant to encourage future participation

these measures do not always align with

the complex nature of interest

as described by the learning sciences

literature or recognize the

reality that school related initiatives

aimed at student engagement in cs

will not produce individual interests in

every student

in this paper we present a review of the

interest literature

and data from a survey with evidence of

validity of

over 1500 students in various cs courses

in new york city

by using latent class analysis lca we

identify

five different statistically significant

subgroups of cs students

one enthusiast two engaged

three bookish four idlers

and five disinterested our finding

suggests that while some students enjoy

cs in class and feel their teacher is

pedagogically effective

they may not develop the individual

interests characterized by seeking

additional learning opportunities

outside of class end quote better

summarize this into a one sentence

summary i would say that this paper

highlights

that although many of the 1525 survey

respondents

expressed an interest in computer

science in the classroom setting

they did not choose to engage in cs

outside of the classroom

all right so this paper was written in

they were saying that there's a lot of

cs initiatives going on in k12 education

in the united states and this is great

and we're integrating with like content

areas like math and science et cetera et

cetera

and the cs discourse is often quoting

like a large number of available jobs in

the profession that require

some cs or computing skills however the

authors note that quote

these initiatives have struggled to find

common assessments or outcomes for all

students end quote that's on page 243

in particular the authors note that

there are basically like two different

types of categories of

assessments of cs implementations so one

is on content

and the other is on attitudes now in

this paper they're focusing specifically

on attitudes

of quote student self-report surveys of

interest

engagement teacher pedagogical

effectiveness and teacher expectations

and rigor

end quote on page 243 okay so the

literature reviews section of this paper

is broken down into two different

sections

one is on the assessments of student

attitudes specifically in cs education

and then the other section is just on

interest research in educational

settings at large

now in the section on student attitudes

in cs education the authors note that

there are very few studies that actually

use validated assessments

when looking at students attitudes in

computer science education

so here's a quote from page 244

quote although interest is often used as

a singular descriptor for cs education

outcomes research shows that it is

actually a complex state

impacted both by intrinsic values of

students

and contextual priming that can catch

students interest

in quote so while students might be

individually interested

in something they can also be

situationally interested in something

depending on what kind of environment or

context

they are in so for example if a student

comes into a computer science class

and already knows about the value of

using coding or computer science to

create some awesome things they might be

intrinsically or individually interested

in it

however if they are mandated to be in a

coding or cs class

and they realize that oh i can make

games with this they might be

situationally interested in learning how

to code or engage in computer science

because they're already interested in

games and they're put into this

environment that kind of prompts us

situational interest

in coding or cs so the author suggests

that in cs education

in the courses and curricula we need to

actually not only

go for situational interest but also

trigger individual interest in the

subject area

so they summarize an approach for this

it's a four-phase model

for developing that kind of interest so

the first phase

is to develop some kind of a situational

interest in it so like i mentioned

if a student's really interested in

games you can start there and be like

cool you're interested in games well

let's learn how to make one

now over time this kind of initial

situational interest

may motivate kids to have sustained

situational

interest engaging in computer science so

you might have that initial hook

that can then build into longer

sustained engagement

within the class that you're working on

so for example if you start with gaming

and then you have another unit that goes

into something like storytelling

a student might continue that interest

because they started with learning how

to

create video games with code and then

they're transferring that interest over

into another context

so it kind of sustains their interest in

it then the goal would be to

not just have sustained situational

interest but make it so that students

are individually interested or

intrinsically interested in the class

that you're working on

so how do you go from that initial hook

and then get it so that a student wants

to continue their learning when they

leave the class

and that's kind of the big thing the big

question that

i think most educators should try and

think through when engaging in the

classroom

is how can i get it so that kids are so

interested in this subject area

that they don't want to just learn the

subject area to get a good grade but

they want to

actually learn it to apply it and

continue to learn in their own life

however i say that with a caveat that

not every subject is going to

have that kind of impact on every single

kid so

for example for me i was very much so

interested in music

and the arts when i was in school and i

really didn't care about most other

subjects even if it was a fantastic

educator

and i enjoyed what i was doing i didn't

want to go home and learn it but i did

however want to go home and learn

to make music so although it's an ideal

i understand

not everyone is going to be 100 as

invested in computer science or coding

as i am or you might be but we can at

least strive for that

or at least attempt to and as an example

from

page 244 of this paper the authors

mentioned that going from that

situational to individual interest

and getting kids to want to continue

learning outside of your classroom

setting it might be

something as simple as joining a club on

the topic so if you have an after school

coding or cs club or makerspace or

something

getting them into that or even just like

going home

and working on scratch at home just to

create a project for fun outside of

a school-based assignment or something

and if i could add like one suggestion

in there

try and find ways to celebrate when

students do that encourage that and let

others know that oh yeah you can take

this home and the reason why i'm saying

this is because

whenever a kid would come in and be like

hey look at this cool thing i made over

the weekend

i would share it with the rest of the

class and some of the students would be

like wait you mean we can work on

scratch at home and be like

yes of course if you're interested in

learning how to keep coding

then why stop here so even though it

might sound obvious for us

it seriously happened in several of my

classes where kids

all of a sudden had this epiphany that

light bulb moment

where they went oh i can actually

continue my learning at home

so make it explicit now the question

that kind of guides this particular

study itself is quote to what extent are

there different types of nyc

cs students who participated in cs for

all during the 2015-2016 school year end

quote

on page 244. now this question gets at

what i was kind of

mentioning earlier so we have a

range of kids who are going to be coming

into the cs or coding classes that

you're working with

and they're all going to participate in

different ways along this continuum of

not interested to maybe situationally

interested or sustained

situational interest or like all the way

on the other end of the spectrum where

it's

complete intrinsic or individual

interest so with kids being along that

continuum we need to kind of think about

different ways of participating and

different types of attitudes or levels

of interest in the classes that we work

with and how to work with all of them

and ideally try and promote further

interest in the subject area

okay so a quick recap of the intro of

this paper

so the authors are saying hey we need to

if we're going to have all these like

cs initiatives and implementations and

whatnot we need to take a look into how

are kids engaging with this

in terms of their attitudes and interest

in the classes that they are now

being forced or electing to take so now

let's quickly

get nerdy and look at the methods

section so they designed a survey that

was sent out to

these students were in a variety of

programs such as bootstrap scripted

and the nyc software engineering program

as well as a couple software engineering

classes in high schools

so the survey was sent out was kind of

broken down into a few different

categories

or variables so one main

area was the perceived pedagogical

effectiveness

the next section was the perceived rigor

and expectations

and was student engagement and then it

was student interest

so each one of these main categories

kind of has their own subcategories so

for example in the student engagement

section the three subcategories were

participation

in class participation outside class

and excited to be ncs so if you want to

take a look at the different variables

that they were assessing take a look at

page 245 there's a

table at the top all right so let's talk

results here

so as was mentioned in the abstract

there were basically five subgroups that

they labeled as one

enthusiasts two bookish

three engaged four idlers

and five disinterested so think of that

kind of like as a continuum

of levels of engagement from enthusiasts

like super excited to

disinterested like why am i even here i

don't want to take this class

okay so if we look at this continuum on

the positive side of things in terms of

amount of interest we have the

enthusiasts and the bookish

students and what's fascinating is

the cs students who were labeled as

enthusiasts made up 54.6

of the sampled students so that means

more than half of the students who

responded to the survey were identified

as

being on the positive end of the

spectrum and were enthusiastic about

the cs classes that they were doing and

the reason why they were labeled that

way is because

quote these students have the highest

proportion positive responses

to questions about their experience

learning cs as well as the highest

interest

and engagement level inside and outside

of the classroom

end quote that's from page 246. now if

we go to the other end of the spectrum

we have the disinterested students and

what was kind of nice to see is that

number was very low that percentage so

it was only 6.3

of students were marked as disinterested

so i want to read you a few sentences of

findings on disinterested students from

page 246 because i think this is

really interesting for cs educators to

hear quote

a low proportion of students in this

group indicated that their teacher did

motivating activities in the classroom

interesting

the lowest proportion of students who

participated in cs focus

activities inside thirty two point one

percent

and outside four point nine percent in

the classroom

in addition only ten point four percent

of disinterested

cs students believed that they consider

themselves as cs people

end quote okay so let's talk about the

other three

different subcategories in here so

bookish students

again this is on the high end of the

spectrum was 22.2 percent of the

students who were surveyed

and 94.7 percent of them expressed a

high interest in taking cs

in their cs class

and 92.1 percent of them thought that cs

could be useful for their future

and that 97.1 percent of them also saw

themselves as

cs people however only 45.9

felt that cs could be useful in everyday

life and only

actually engaged in cs activities

outside of the classroom itself

so although the majority of booker's

students

were very engaged in class and very much

so enjoyed and thought that there was

a future for them with cs they still did

not engage in it

outside of the classroom setting now the

other two areas

the engaged and the idlers engaged

mostly felt that the classes were

interesting and motivating whereas the

idlers less so

for example the idlers had only 18

of respondents indicate that they

actually felt cs was useful in everyday

life

and only 21.1 percent actually express

any interest in cs content

so on page 247 there's a chart at the

top of the page that shows the five

different subgroups of cs students

so using that chart you can see how each

subgroup responded

on average to the different categories

of questions that were asked

now i want to close the discussion of

these findings with a quote from page

quote the characteristics of these

groups highlight the need for more

granularity in our measurements and

descriptions of interest

as we measure cs education's impact on

students end quote

so this gets at one of my lingering

questions and one of the problems that i

have with surveys

in in particular so surveys are great

for sending out something to a lot of

people

getting some general feedback and

getting some

responses like these maybe even some

open prompts

or responses that can be put into codes

or themes or categories like they did in

this latent class analysis

my follow-up question that would be for

each person who responded

to this survey is why

why did they market this way why did

they mark that they were

interested in the content but did not

see an application

outside of the class so for example why

is it that some of the subgroups were

very interested in the classroom setting

but they did not engage in computer

science out of the classroom this is

like the big million dollar question

that i think we honestly need to be

asking of every kid that we work with

if students are in your class and

they're very engaged with it but they

don't go home and work on it

why is that is it because they don't

have access to devices or to the

internet

is it because they don't have time for

it is because they're interested in it

but they don't realize they can do it at

home

like some of the kids that i've worked

with could it be that all they're really

interested in

is getting a good grade and checking off

whatever is on the rubric to get that

good grade and outside of that they're

just playing the game that is called

school

and they really don't have any interest

in the subject area that they're doing

well in

or perhaps it's some of the equity

things that we've talked about in the

other unpacking scholarship episodes or

even some of the interviews

maybe they don't see themselves in cs

because they don't see other people like

them or they don't know that they have a

potential career in this

with or without degrees or education

they could go into this but they just

don't know that

or maybe they're interested in a career

in something else and they don't realize

that they can do cs for fun

one of the big things that i've talked

about in particular in a lot of the

interviews

is yeah it's great that a lot of people

want jobs and there's plenty of cs jobs

out there

but what about the people who just want

to engage and see us for fun

like all the unpacking scholarship

episodes that i did on mod culture

like i proposed my wife by modding the

game minecraft why did i do that it had

nothing to do with a job

i learned java so i could get married

perhaps there are students that are like

that they're like you know what i really

want to become a doctor

i'm inspired by the medical

professionals right now that are

combating kovid and that's what i want

to do and then you could go

cool did you know that you could analyze

data

using computer science techniques that

you're learning now maybe that's they're

in

to realize that there are connections

outside of this but we won't know until

we actually ask those follow-up

questions of why

so if there's one thing that i can leave

you with it's just when you are back in

the classroom

with your kids ask them why why are they

interested and

or why are they not interested don't

just ask one end of the continuum

seriously ask everybody you could even

start off your each quarter or something

with that question

why are you or are you not interested in

computer science

if you're not interested in it what are

you passionate about and why

i hope you found this episode useful

next week is going to be another

interview

and two weeks from now will be another

unpacking scholarship

as always i just ask that you simply

share this with somebody who might find

this interesting and useful

i hope you're all staying safe i hope

you're all having a wonderful week and i

will talk to you

next week