am
Stage 1: Mimosa
Table of Contents I
Handwriting - Single Letters
High-Frequency Word Handwriting3
m — rose-gold4
n — teal with pink rim5
h — sandy brown6
b7
p — descender to second line8
Part 1 - Short /æ/
Hills Thus Far: short a and schwa9
Short a Handwriting — Letters10
HFW Learning Cards — short a and schwa11
HFW Flashcards — short a and schwa12
HFW Elkonin Boxes — short a and schwa13
Pap and Bab14
Noun Practice — Pap and Bab15
The Map16
Noun Practice — The Map17
Pap's Ham18
Noun Practice — Pap's Ham19
These are nouns - short a20
Fill in the blank - short a21
Answers - short a22
Picture fluency - short a23
Part 2 - Short /ɪ/
Hills Thus Far: short i and schwa24
Short i Handwriting — Letters25
HFW Learning Cards — short i and schwa26
HFW Flashcards — short i and schwa27
HFW Elkonin Boxes — short i and schwa28
In the Inn29
Noun Practice — in the ham30
The Nip31
Noun Practice — Pip's Nip32
Bam in the Bin33
Stage 1: Mimosa
Table of Contents II
Part 2 - Short /ɪ/ continued
Noun Practice — Bam in the Bin34
Cloze Practice — in / inn35
Practice: Copy the Sentences36
Short i Handwriting — Sentences37
These are nouns - short i38
Fill in the blank - short i39
Answers - short i40
Picture fluency - short i41
Part 3 - Consonants N · B · P · M
Nan42
Nan's Nap43
Nap in the Inn44
Bab45
Bam's Ban46
The Bin47
Pap48
Pip's Pan49
Pap's Inn50
Mab51
Mab and the Imp52
Mim in the Inn53
Part 4 - Mixed /æ/ + /ɪ/ Review
Hills Thus Far: a and i with schwa54
HFW Learning Cards — mixed review55
HFW Flashcards — mixed review56
HFW Elkonin Boxes — mixed review57
Pap and Pip58
Noun Practice — Pap and Pip59
Nan's Pan60
Noun Practice — Nan's Pan61
Mixed Review Handwriting — Sentences62
Grammar and Review
Noun Collection63
Noun Markers64
Capitalization65
Answer Key — Noun Collection66
Appendix
Research Appendix: Connected Phonation Notes67
Stage 1: Mimosa a · m · n · h · i · b · p
Notes for parents and educators — what the evidence says.
Segmenting and blending first
The strongest evidence in early literacy is for phonemic awareness — teaching children to hear, identify, and manipulate the individual sounds in spoken words — and for systematic phonics, mapping those sounds to letters. These skills move the needle most reliably for struggling readers. Everything else in this workbook is built on that foundation.
Grammar — useful, but conditional
Explicit grammar instruction has a weaker evidence base than phonics. It tends to help most once a child can already decode most words in a sentence — at that point, understanding how sentences work (nouns, verbs, how phrases connect) supports reading comprehension and writing quality. If your child is still working hard to decode single words, keep the focus on phonics. Return to the grammar pages when reading feels more automatic.
Handwriting every day
Even five minutes of handwriting practice a day makes a difference. Writing letters by hand strengthens the brain's letter-recognition pathways in a way that typing does not. For all children, but particularly SpLDers, the physical act of forming a letter reinforces the sound–symbol connection in ways that tracing or typing cannot replicate. A few words, written well, beats a full page written carelessly. Prioritise quality over quantity.
High-frequency word copying — what the research says
The traditional "look, cover, write, check" approach to memorising high-frequency words is not well supported by current evidence. Pure visual memorisation is fragile, particularly for dyslexic learners. Where possible, decode HFWs phonetically — even irregular ones usually have regular parts worth pointing out.
Take is and his. The i in is and the h in his are both entirely decodable — children can be shown this directly. What is not straightforward is the final letter: both words end in s, yet both are spoken with a /z/ sound.
Here is why. When you say is, your voice is already switched on — the short vowel /ɪ/ is voiced, meaning your vocal cords are vibrating, buzzing, bubbling. The s at the end arrives while your voice is still in the brew. Rather than switching off, the voicing burrows down deep in the throat and the s becomes a z. The same happens in his, and in everyday words like ads, dogs, lives. The larynx — the voice box, sitting low in the throat — is already humming, and it pulls the s down with it.
You can explain this to children quite directly: "Feel your throat. When the voice is already buzzing and the s arrives, it burrows down deep and comes out as a z." Let them feel the difference with a hand on their larynx: sss (silent throat) versus zzz (buzzing throat).
Place · Manner · Voicing
Consonants can be described by three things: where in the mouth they are made (place), how the airflow is shaped (manner), and whether the vocal cords are switched on (voicing). A minimal pair is two sounds that are identical in every way except one.
s↔z
Place: alveolar — named for the alveolar ridge, the bony shelf just behind the upper front teeth. Tip of tongue lifts to meet it.
Manner: fricative — air squeezed through a narrow gap
Voicing: s is voiceless · z is voiced
sun / zoo · is / his
p↔b
Place: bilabial — bi (Latin: two) + labium (Latin: lip). Both lips close completely together.
Manner: plosive — air stopped then released
Voicing: p is voiceless · b is voiced
pin / bin · Pip / Bip
Place and manner are the same within each pair. Voicing is the only difference. Put your hand on your throat — you will feel the buzz start for /z/ and /b/ but not for /s/ and /p/.
How this curriculum was built
Stage 1 — Mimosa — introduces seven sounds: a · m · n · h · i · b · p. Their selection was not arbitrary. The sequence was informed by work in the tradition of Dr. Schell, whose approach uses an algorithm to score candidate phoneme sets against three weighted criteria: articulatory energy cost (how much muscular effort a sound requires to produce), cognitive load (the perceptual and working-memory demand placed on a learner encountering it for the first time), and frequency of encounter in age-appropriate English text. Sounds that score well on all three — common, easy to articulate, and perceptually distinct — are front-loaded. Sounds that are rare, effortful, or easily confused with others wait.
This algorithmic framing has a deep linguistic precedent. The phoneme set closely mirrors findings from Roman Jakobson's foundational work on the universal order of phonological acquisition.1 Jakobson argued that children across all languages acquire speech sounds in a predictable hierarchy, governed by the principle of maximal contrast: the sounds acquired earliest are those most distinct from one another and most widespread across the world's languages. The first opposition is between consonant and vowel. The first vowel is typically the low open /a/ — the mouth is as open as it can be. The first consonants are typically labial stops and nasals: /p/, /b/, /m/ — the lips close completely, creating maximum closure. These are the poles of the articulatory space.
Jakobson further observed that the high front vowel /i/ and the low open vowel /a/ represent the two outer corners of the primary vowel opposition — the steepest contrast available in any vowel system.1, 2 Once a child has /a/ versus /i/, they have a stable phonological anchor. This is exactly why most well-designed phonics programmes begin with two contrastive vowels. Stage 1 of Mimosa introduces precisely this pair — before any other vowels enter.
A note on orthography: why /ɪ/ and not /iː/
Strictly speaking, the most extreme high front vowel in English is the long vowel /iː/ — the sound in feet. It sits at the very top-front corner of the vowel space, making it the theoretical ideal for maximum contrast with the low open /æ/. Pure phonological logic would select it.
But written English gets in the way. The /iː/ sound has no single clean spelling. It appears in at least nine common patterns:
eefeet
eabeat
ehe
iefield
imachine
e-ethese
eykey
ybaby
eireceive
For a child in the earliest stage of reading, introducing a vowel sound that could be spelled nine different ways is a significant orthographic burden before the decoding mechanism is even established. The short vowel /ɪ/ — as in inn, pin, bin — still occupies the high-front region of the vowel space, still provides strong contrast with /æ/, and crucially maps onto a single clean letter: i. The phonological logic holds; the orthographic complexity does not follow. /ɪ/ is the pragmatic choice.
The consonants /m/, /n/, /p/, /b/, /h/ are likewise among the earliest acquired cross-linguistically and place the lowest articulatory demands on young learners. /m/ and /n/ require only nasal airflow with lip or tongue-tip closure; /p/ and /b/ require only a bilabial stop and release; /h/ is merely a voiceless breath shaped by the following vowel. None require the precise tongue-tip or tongue-body configurations that make sounds like /r/, /l/, or the dental fricatives /θ/ and /ð/ difficult for many children well into middle childhood.
References
1 Jakobson, R. (1968). Child language, aphasia and phonological universals (A. R. Keiler, Trans.). Mouton. (Original work published 1941 as Kindersprache, Aphasie und allgemeine Lautgesetze)
2 Jakobson, R., Fant, G., & Halle, M. (1952). Preliminaries to speech analysis: The distinctive features and their correlates. MIT Acoustics Laboratory Technical Report 13. MIT Press.
Note: Full bibliographic details for Dr. Schell's algorithm to be confirmed by the curriculum author before publication.
How do we connect the sounds?
Connected phonation means keeping the sounds moving into a word. The goal is not to stretch every sound as long as possible. The goal is to help the child hear the word come alive without chopping it into disconnected pieces.
Keep one smooth speech shape
Read the word as one moving speech event. Let the voice or breath flow into the vowel, then close the word cleanly.
Continuous onset sounds
m · n · h · vowels
What to do: begin the sound gently, keep it brief, and slide into the vowel without a break.
Examples: mmmăp → map; nnnĭp → nip; hhhăm → ham.
Avoid: long theatrical stretching that makes the word fade apart.
Stop onset sounds
p · b
What to do: close the lips, release quickly, and land directly on the vowel.
Examples: pă → pa, păp → pap; bĭn → bin.
Avoid: adding an extra uh: not puh-a-puh, not buh-in.
Useful adult cue: continuous sounds can be carried briefly; stop sounds are prepared silently and released into the vowel. In both cases, keep the word smooth, short, and natural.
Dr. Schell — ISRM Framework: Public Disclosure Boundaries
The following items are intentionally omitted from public disclosure. For licensing or collaboration inquiries please contact directly.
- Signal definitions and measurement pipelines for E(t), ΔS(t), and ΔC(t)
- Any transforms, filters, or windows applied to raw data
- Controller logic, thresholds, modes, or hysteresis structures
- Stability proofs, Lyapunov constructions, or safety guards
- Adaptive weighting (e.g., RU(t)) or learning mechanisms
- Hardware/firmware/software integration details, APIs, or device mappings
- Verification artifacts, performance results, or tuning procedures
- Application-specific embodiments (chips, drives, robotics, AI inference, etc.)
Portions of this work are subject to pending patent applications and other intellectual property rights. Public disclosure of the high-level equation does not grant a licence to implement or commercialise any controller or system that uses it. All rights reserved. No licence, express or implied, is granted by this publication.
FAQ
- Can I implement this controller based on this page?
- No. This page is conceptual only and omits the technical details required for implementation.
- Can I use this equation in my research paper?
- Yes, the equation may be quoted for conceptual discussion. Implementation details remain proprietary unless licensed.
- Does this page enable me to build the controller?
- No. This page omits the necessary enablement details (definitions, transforms, control structures, and proofs).
- Is this patent-safe to share publicly?
- Yes. Equations alone are abstract ideas; what is patent-protected are practical implementations, which are not disclosed here.
- How can my organisation collaborate or licence implementations?
- Reach out via the contact below to discuss licensing options under NDA.
Collaboration & Licensing — For collaboration inquiries, academic engagements, or licensing of specific embodiments:
johnpaulschell@gmail.com
Although implementation details vary, ISRM has demonstrated conceptual relevance across scales — from silicon to cellular biology — suggesting that self-regulation follows the same energetic and informational grammar throughout nature. ISRM unites what evolves, learns, and endures: one principle of adaptive intelligence expressed across nature and technology.
© 2026 ISRM Framework. All rights reserved. Patent pending (U.S. and international).
High-Frequency Word Handwriting
Practice the high-frequency words in print and cursive.
the
print model
the
cursive model
the
a
print model
a
cursive model
a
and
print model
and
cursive model
and
has
print model
has
cursive model
has
is
print model
is
cursive model
is
his
print model
his
cursive model
his
it
print model
it
cursive model
it
I
print model
I
cursive model
I
Handwriting — m — rose-gold
Single-letter consonant practice only. Manuscript first, then cursive.
Manuscript — m
m m m m m m
m m m m m m
m m m m m m
Cursive — m
m
m
m
Handwriting — n — teal with pink rim
Single-letter consonant practice only. Manuscript first, then cursive.
Manuscript — n
n
n
n
Cursive — n
n
n
n
Handwriting — h — sandy brown
Single-letter consonant practice only. Manuscript first, then cursive.
Manuscript — h
h
h
h
Cursive — h
h
h
h
Handwriting — b
Single-letter consonant practice only. Manuscript first, then cursive.
Manuscript — b
b
b
b
Cursive — b
b
b
b
Handwriting — p — descender to second line
Single-letter consonant practice only. Manuscript first, then cursive.
Manuscript — p
p
p
p
Cursive — p
p
p
p
A Series — Short /æ/ Mesa
The low open vowel. Mouth wide, jaw dropped. Sounds: a · m · n · h · p · b
Hills Thus Far: short a and schwa
Every hill is one bleat — a vowel peak. These are the hills we know so far.
What are we seeing here? Bab’s Hill is short a: a smooth coral mesa — low, wide, and flat on top. There is a little smile in the cheeks, but not as wide as Viv’s Hill. Luna’s Hill is schwa: a tiny cobalt pile with golden vowels. The only example word on Luna’s Hill is the.
Short a Handwriting — Letters
Single-letter vowel practice only. Manuscript first, then cursive.
Manuscript — a
a
a
a
Cursive — a
a
a
a
HFW Learning Cards — short a and schwa
Set 1: hill + word cards. Tap any card to hear the word.
Why repeat the cards? The repeated sets are intentional for matching, sorting, memory, and hill-to-word games.
Set 1 — Hill + Word
the
Luna’s Hill · schwa
a
Bab’s Hill · short a
and
Bab’s Hill · short a
has
Bab’s Hill · short a
HFW Flashcards — short a and schwa
Sets 2 and 3 use the same cut size as Set 1. Tap any card to hear the word.
Game use: word-only cards build quick recognition. Hill-only cards let students match the sound hill to the word.
Set 2 — Word Only
the
a
and
has
Set 3 — Hill Only
Luna’s Hill · schwa
Bab’s Hill · short a
Bab’s Hill · short a
Bab’s Hill · short a
HFW Elkonin Boxes — short a and schwa
Parent: pick a word at random from this page's word bank. Say it aloud without pointing. Child taps the sounds, maps the letters, and writes the word.
Parent word bank: the · a · and · has
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
Meet the Characters
These names will appear again and again so children can read real little stories with the spellings they know.
Bab
a sheep in the Tingog hills
Nan
a story friend whose name helps practice short a
Pap
the man in the stories
Bam
a lamb with a big little presence
Mab
a story friend who appears in the inn stories
Ann
a story friend for short-a practice
Bip
a story friend for short-i practice
Pip
the pika - clever, quick, and a bit of a trickster
The names are simple on purpose: they let children focus on sound, spelling, and meaning without too many new patterns at once.
Pap and Bab
Book A1 · Pre-test /æ/ Mesa
Pap
Bab
man
nap
pan
Noun Practice — Pap and Bab
Circle the noun: is a man.
Circle the noun: Bab is a
Circle the noun: has Bam.
The Map
Book A2 · Practice /æ/ Mesa + HFW: the
map
Pap
pan
ham
Pap nap.
Nan nap.
Bab
Noun Practice — The Map
Circle the noun: has a nap
Circle the noun: Nan is the
Circle the noun: has a map
Pap's Ham
Book A3 · Post-test /æ/ Mesa Mastery
Pap Nan
Pap nap ham.
Nan pan
Bab nap Pap nap.
Nan map
ham pan
Pap Bab Nan nap.
Nan pap ham.
Noun Practice — Pap's Ham
Circle the noun: Pap has ham.
Circle the noun: Pam has a pan.
Circle the noun: Nan has a nap.
These are nouns
A noun is the name of a person, place, animal, or thing. Point and say each word.
map
m · a · p
I can read map
pan
p · a · n
I can read pan
ham
h · a · m
I can read ham
Pap
P · a · p · proper noun
I can read Pap
Bab
B · a · b · proper noun — sheep name
I can read Bab
Nan
N · a · n · proper noun
I can read Nan
Proper nouns name a specific person. They start with a capital letter.
Pap, Bab, and Nan are names. map, pan, and ham are things.
Pap, Bab, and Nan are names. map, pan, and ham are things.
Proper nouns name a specific person, place, or character. Pap and Nan are people. Bam is a lamb. Bab is a sheep. Pap, Bab, Bam, and Nan are names, while map, pan, and ham are things.
② Fill in the blank
Pick the best word to fill in the blank.
Word bank
map
ham
pan
nap
Pap
Nan
- 1. and the map
- 2. The ham is in the .
- 3. Pap and Nan .
- 4. the and the pan
- 5. Bab has .
② Answers
Check your work.
- 1. Pap Pap and the map
- 2. pan The ham is in the pan.
- 3. nap Pap and Nan nap.
- 4. map the map and the pan
- 5. ham Bab has ham.
Bonus word: nab — n · a · b — Pap can nab the ham!
Pick the sentence that best describes the picture
Look at each picture. Circle the sentence that matches.
1
2
3
4
5
Draw the scene
Bab is in the pan.
I Series — Short /ɪ/ Pillar
The tongue is positioned high and forward in the mouth. It is also in a wide shape, and the sides of the tongue should touch the inside of the upper back teeth. Sounds: i · p · n · b · m · h
For I, the hill blends broad a in all with ee in bee: a burnt-orange mesa plus a neon greenish-teal pillar on a light forest foundation.
Hills Thus Far: short i and schwa
Every hill is one bleat — a vowel peak. These are the hills we know so far.
What are we seeing here? Viv’s Hill is short i: tall, green, and tapering up. The smile is wider here, and there is more tension in the cheeks than on short a. Luna’s Hill stays tiny for schwa in the.
Short i Handwriting — Letters
Single-letter vowel practice only. Manuscript first, then cursive.
Manuscript — i
i
i
i
Cursive — i
i
i
i
HFW Learning Cards — short i and schwa
Set 1: hill + word cards. Tap any card to hear the word.
Why repeat the cards? The repeated sets are intentional for matching, sorting, memory, and hill-to-word games.
Set 1 — Hill + Word
the
Luna’s Hill · schwa
is
Viv’s Hill · short i
his
Viv’s Hill · short i
it
Viv’s Hill · short i
I
I · broad a + ee
HFW Flashcards — short i and schwa
Sets 2 and 3 use the same cut size as Set 1. Tap any card to hear the word.
Game use: word-only cards build quick recognition. Hill-only cards let students match the sound hill to the word.
Set 2 — Word Only
the
is
his
it
I
Set 3 — Hill Only
Luna’s Hill · schwa
Viv’s Hill · short i
Viv’s Hill · short i
Viv’s Hill · short i
I · broad a + ee
HFW Elkonin Boxes — short i and schwa
Parent: pick a word at random from this page's word bank. Say it aloud without pointing. Child taps the sounds, maps the letters, and writes the word.
Parent word bank: the · is · his · it · I
Extra practice boxes for the and his.
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
In the Inn
Book I1 · Pre-test /ɪ/ Pillar
in
inn
Pip
hip
pin
Pip in inn
mim Pip
Noun Practice — in the ham
Circle the noun: Pap has a
Circle the noun: in an inn
Circle the noun: is a man
The Nip
Book I2 · Practice /ɪ/ Pillar + HFW: is
Pip hip.
Pip mim.
Pip in inn.
Pip can nip.
Bam Pip can nip.
Pip Bam nap.
Bam mim.
Noun Practice — Pip's Nip
Circle the noun: Pip has a
Circle the noun: is in the bin
Circle the noun: is in an inn
Bam in the Bin
Book I3 · Post-test /ɪ/ Pillar Mastery
Bam in bin.
nap in bin.
Pip Bam nap in inn.
Pip mim?
Pip in bin.
Pap in inn.
man in inn.
Pip Pap nap in inn.
Noun Practice — Bam in the Bin
Circle the noun: Bam is in.
Circle the noun: has a bin.
Circle the noun: The bin is in an
Cloze Practice — in / inn
Word bank: in · inn
1. Pap is the inn.
2. Pip is the bin.
3. It is an .
4. His pin is the ham.
5. Pap has an .
6. Bip is the inn.
Practice: Copy the Sentences
Read each sentence. Then copy it on the line.
I am Pap.
Pap has an inn.
It is Nan.
It is the ham in the pan.
Let’s Draw!
An inn is a small hotel. Pap owns an inn in Tingog. What do you think Pap’s Inn looks like? Draw it in the box below.
Short i Handwriting — Sentences
Copy each sentence in manuscript and in cursive.
Copy the sentences
Pip is in the inn.
manuscript
Pip is in the inn.
cursive
It is a pin.
manuscript
It is a pin.
cursive
Bam is in the bin.
manuscript
Bam is in the bin.
cursive
Nan has a nip.
manuscript
Nan has a nip.
cursive
Pip has a pin in the bin.
manuscript
Pip has a pin in the bin.
cursive
These are nouns
A noun is the name of a thing or a place. Point and say each word.
pin
p · i · n
I can read pin
bin
b · i · n
I can read bin
inn
i · nn
I can read inn
Pip
P · i · p · proper noun
I can read Pip
Bip
B · i · p · proper noun
I can read Bip
hip
h · i · p
I can read hip
Proper nouns name a specific person or place. They start with a capital letter.
Pip and Bip are names. pin, bin, and inn are things and a place.
Pip and Bip are names. pin, bin, and inn are things and a place.
② Fill in the blank
Pick the best word to fill in the blank.
Word bank
in
inn
pin
his
Pip
hip
- 1. the bin
- 2. is in the inn.
- 3. The is in the bin.
- 4. It is pin.
- 5. Nan and Bib nap in the .
② Answers
Check your work.
- 1. in in the bin
- 2. Pip Pip is in the inn.
- 3. pin The pin is in the bin.
- 4. his It is his pin.
- 5. inn Nan and Bib nap in the inn.
Bonus word: hip — h · i · p — point to your hip!
Pick the sentence that best describes the picture
Look at the picture. Circle the sentence that matches.
- 1
- 2
- 3
- 4
- 5
Draw the scene
It is his pin in the bin in the inn.
N Series — Consonant /n/
Nasal gate. Tongue tip to alveolar ridge, air flows through the nose.
Nan
Book N1 · Consonant /n/ Pre-test
Nan
nap
pin
pan
Nan Bam nap.
Nan in inn.
Nan's Nap
Book N2 · Consonant /n/ Practice
am Nan.
Nan in inn.
man nap in inn.
pin pan
Nan Pip nap in inn.
Nan Bam nap.
Pip Nan nap.
ham in pan
Nap in the Inn
Book N3 · Consonant /n/ Post-test
Nan Pip nap in inn.
pan in inn
nip pin in inn
Pip Bip nap in inn.
Nab pin.
him Nan nap.
Pip in inn nip nab.
Nan in inn hip.
B Series — Consonant /b/
Voiced bilabial stop. Both lips close and release with voice.
Bab
Book B1 · Consonant /b/ Pre-test
Bab
Bam
nab
bin
ban Bab.
Bab in bin.
Bam's Ban
Book B2 · Consonant /b/ Practice
Bam Bab
Bab in bin.
Nap ban
bin Pip Bam
Bab him nap.
Bam in.
Bab in bin
Bam Bip nap.
The Bin
Book B3 · Consonant /b/ Post-test
bin
Bab in bin.
Bam Bab napin bin .
Pip in bin.
ban in bin.
Bab in bin.
Bam in inn.
Nan Bab Bam nap.
P Series — Consonant /p/
Voiceless bilabial stop. Both lips close and release, voice off.
Pap
Book P1 · Consonant /p/ Pre-test
Pap
Pip
pan
nap
Map Pap.
Pip in pan
Pip's Pan
Book P2 · Consonant /p/ Practice
Pip Pap
Pap pan.
Pip pin.
pan pin
Pap Pip nap in inn.
pan Pip
Pap in pan.
Pip nip in pan.
Pap's Inn
Book P3 · Consonant /p/ Post-test
Pap inn
Pip in nap .
Nan pan in inn .
An amp in inn .
Pip Pap nap in inn .
Bam Pip nab ham in inn .
Bam Bab nip ham in inn .
Pap man in inn .
inn .
M Series — Consonant /m/
Voiced bilabial nasal. Lips close, voice hums through the nose.
Mab
Book M1 · Consonant /m/ Pre-test
Mab
mim
man
map
him
Mab ham
Mab and the Imp
Book M2 · Consonant /m/ Practice
Mab map.
Mab mim.
imp map .
imp in inn mim .
imp in inn map.
Mab imp nab ham map .
Nan Mab nap in inn .
Mab an imp an amp .
Mim in the Inn
Book M3 · Consonant /m/ Post-test
Mab map in inn.
imp mim in inn.
Mab Nan map in inn.
ham in pan.
Mab ham.
Nan mim in inn.
Pip Mab Pap nap in inn.
Mab mim in inn.
MX Series — Mixed /æ/ + /ɪ/
Both vowels in play. The two corners of the vowel triangle together.
Hills Thus Far: a and i with schwa
Every hill is one bleat — a vowel peak. These are the hills we know so far.
What are we seeing here? Mixed review: Bab’s Hill and Viv’s Hill appear together. Bab’s Hill has a little cheek smile. Viv’s Hill has a wider smile and more cheek tension. Luna’s Hill remains a tiny cobalt pile for schwa in the.
HFW Learning Cards — mixed review
Set 1: hill + word cards. Tap any card to hear the word.
Why repeat the cards? The repeated sets are intentional for matching, sorting, memory, and hill-to-word games.
Set 1 — Hill + Word
the
Luna’s Hill · schwa
a
Bab’s Hill · short a
and
Bab’s Hill · short a
has
Bab’s Hill · short a
is
Viv’s Hill · short i
his
Viv’s Hill · short i
it
Viv’s Hill · short i
I
I · broad a + ee
HFW Flashcards — mixed review
Sets 2 and 3 use the same cut size as Set 1. Tap any card to hear the word.
Game use: word-only cards build quick recognition. Hill-only cards let students match the sound hill to the word.
Set 2 — Word Only
the
a
and
has
is
his
it
I
Set 3 — Hill Only
Luna’s Hill · schwa
Bab’s Hill · short a
Bab’s Hill · short a
Bab’s Hill · short a
Viv’s Hill · short i
Viv’s Hill · short i
Viv’s Hill · short i
I · broad a + ee
HFW Elkonin Boxes — mixed review
Parent: pick a word at random from this page's word bank. Say it aloud without pointing. Child taps the sounds, maps the letters, and writes the word.
Parent word bank: the · a · and · has · is · his · it · I
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
4 sound boxes
4 letter boxes
Write the word
Pap and Pip
Book MX1 · Mixed /æ/ + /ɪ/ Pre-test
Pap Pip
Pap Pip nap.
Pip hip.
Pap in inn.
Pip Pap nap.
map in inn.
Noun Practice — Pap and Pip
Circle the noun: Pap has a pan.
Circle the noun: Pip is in the inn.
Circle the noun: Nan has a pin.
Nan's Pan
Book MX2 · Mixed /æ/ + /ɪ/ Practice
Nan pan.
Pap in inn.
pan in bin.
Pip hip.
Bab Pip nap in inn.
Nan Pip nap in inn.
Nan map.
Pap Pip nip ham.
Noun Practice — Nan's Pan
Circle the noun: Pap has a ___
Circle the noun: ___ is in the inn
Circle the noun: ___ has a pin
Mixed Review Handwriting — Sentences
Read each sentence. Copy it once in manuscript and once in cursive. The sentence model stays above each line.
The imp is mim in the inn.
manuscript copy
The imp is mim in the inn.
cursive copy
Mab has an amp in the inn.
manuscript copy
Mab has an amp in the inn.
cursive copy
Nan and Mab nap in the inn.
manuscript copy
Nan and Mab nap in the inn.
cursive copy
Mab and the imp nab the ham.
manuscript copy
Mab and the imp nab the ham.
cursive copy
Noun Collection
Find as many nouns as you can in the decodable stories. Sort them into concrete nouns and proper nouns. Then sort them again as person, place, or thing.
Concrete nouns
Person
Place
Thing or animal
Proper nouns
Person
Place
Thing or animal
Noun Markers
Some small words travel with nouns. They help you know a noun is coming. Circle the noun marker. Underline the noun.
Note for teachers: In this workbook, a, an, and the are called noun markers because they signal that a noun is coming. Other programs may call these words articles, determiners, or, in traditional grammar, article adjectives. The label can vary; the classroom job is the same: they help children find nouns.
a
a map
a ham
a pan
an
an imp
an amp
an inn
the
the map
the inn
the ham
② Circle the noun marker and underline the noun in each phrase.
a pin
the bin
an imp
a nap
the pan
an inn
Capitalization
Proper nouns always start with a capital letter. Concrete nouns do not — unless they begin a sentence.
Look at the word. Is it a name? Write it with a capital. Is it a thing or place? Write it in lowercase.
concrete noun
map → map
inn → inn
ham → ham
proper noun (name)
pap → Pap
nan → Nan
ann → Ann
② Write each word correctly. Use a capital if it is a name.
mab ___________
pin ___________
pip ___________
bin ___________
bip ___________
inn ___________
nan ___________
map ___________
Answers
Mab, pin, Pip, bin, Bip, inn, Nan, map
What this workbook offers
A quick parent-and-educator snapshot of the full Stage 1 Mimosa workbook.
- 20 decodable books and fluency texts: short a, short i, consonant practice, and mixed review.
- 9 high-frequency word pages: learning cards, flashcards, and Elkonin mapping practice.
- 10 handwriting pages: single-letter, word, and sentence copying practice.
- 19 grammar and language pages: noun work, noun markers, capitalization, cloze, and answer pages.
- 2 picture-choice fluency pages: sentence-to-image matching and drawing practice.
- 3 vowel hill review pages: short a, short i, schwa, and mixed review hill cues.
The workbook combines decodable reading, handwriting, high-frequency word mapping, grammar, and visual vowel-hill cues in one Stage 1 sequence.
Answer Key — Noun Collection
Use this key for the decodable-story language after the introduction.
| Group | Person / character | Place | Thing or animal |
|---|---|---|---|
| Concrete nouns | man, imp | inn | map, pan, ham, pin, bin, amp, lamb, sheep |
| Proper nouns | Pap, Nan, Mab, Ann | Bam, Bab, Pip, Bip |
Language notes: mim is an adjective. in is a preposition. a, an, and the are noun markers. it is a pronoun, not a noun for this collection.
Research Appendix: Connected Phonation Notes
Copied out of the introduction so the workbook intro can stay practical. This page preserves the fuller theory for adult review and future teacher-guide development.
Editorial note: The simplified introduction keeps the classroom routine. The copied section below preserves the longer working theory, including the cautions about onset rise-time and connected phonation.
Gates and Bleats — consonants and vowels
Gate
consonant
A gate is a sound that obstructs, stops, or shapes the airstream. The breath is gated — narrowed through a gap, stopped at the lips, or blocked by the tongue. Gates need a vowel to carry them forward; they cannot be sustained on their own.
p
b
m
n
h
s / z
Gate check-points test a single target sound in isolation. Can the child hear it, hold it, and produce it cleanly? That precision is the foundation on which the oscillatory hierarchy below is built.
Bleat
vowel
A bleat is a sound that flows freely — the voice resonates through an open or shaped vocal tract with no obstruction. Like an animal's bleat, it carries on the breath. Bleats are the hills of the soundscape: you can ride them, sustain them, hear their colour change as the mouth opens or closes.
ă /æ/ short a
ĭ /ɪ/ short i
ə schwa /ə/
In reading, it is the bleat that carries the temporal signal. What matters is not simply whether speech sounds smooth, but whether the child's vowels show accurate rise-onset — the rate and sharpness of amplitude increase at each vowel onset — and whether the pattern of stressed and unstressed bleats is preserved. This is the Temporal Sampling Framework operating at the theta band (~4–8 Hz, syllable rate): the brain tracks the rhythmic pulse of syllables, and within each theta cycle, phonemic contrasts are nested and resolved. Fluency, properly understood, is rhythmic accuracy at the syllable level — not surface smoothness.
The oscillatory hierarchy — how the reading brain organises time
Δ
Delta
~1.5–4 Hz
the pulse
Locks to the rate of stressed syllables across languages (~500 ms). Provides the prosodic frame — the rhythmic skeleton — within which everything else is organised. Impaired delta phase-alignment in dyslexia means the whole scaffold sits at a subtly wrong angle. Cross-culturally, mothers sing lullabies at ~120 BPM — 2 Hz — the precise peak of the delta-band mechanism (Goswami, 2022).
Θ
Theta
~4–8 Hz
the syllable
Tracks syllable rate. Each theta cycle is a parsing window — one syllable, one slot. The phonemes of that syllable are nested inside as gamma events. When theta phase is atypical, the gamma phoneme-slots mis-fire: the sounds exist, but the binding is wrong. This is where dyslexic readers lose the signal inside the word.
Γ
Gamma
~30–80 Hz
the gate
The phoneme level. Each gate — every /p/, /b/, /m/, /n/ — is a 20–50 ms acoustic event resolved in the gamma range. Gamma cycles nest inside the theta frame, carving individual phoneme slots. A consonant that arrives in the wrong gamma window inside its theta cycle is missed or merged. This is why gates are check-points.
Β
Beta
~13–30 Hz
the bridge
Motor cortex to auditory cortex. When the hand writes a letter, the lips form it, or the tongue places for a gate, beta-range synchrony binds motor preparation to auditory expectation. This is the neuroscientific basis for why handwriting reinforces GPC learning — the kinetic act co-activates the phoneme representation through a direct cortical channel.
Α
Alpha
~8–13 Hz
the filter
Suppression and selective attention. Alpha increases in regions not currently needed and decreases in active processing areas. During reading, alpha suppression in auditory cortex signals engagement — the system is open for input. Some research suggests alpha indexing of speech comprehension may be as important as theta entrainment in skilled readers.
Sources
Δ Power et al. (2013). Neural entrainment to rhythmically presented speech in children. NeuroImage, 80, 96–110. · Goswami, U. (2011). A temporal sampling framework for developmental dyslexia. Trends in Cognitive Sciences, 15(1), 3–10.
Θ Leong, V. & Goswami, U. (2014). Assessment of rhythmic entrainment at multiple timescales in dyslexia. Journal of Neuroscience, 34(49), 16416–16430.
Γ Giraud, A-L. & Poeppel, D. (2012). Cortical oscillations and speech processing: emerging computational principles. Nature Neuroscience, 15(4), 511–517.
Β Arnal, L.H. & Giraud, A-L. (2012). Cortical oscillations and sensory predictions. Trends in Cognitive Sciences, 16(7), 390–398.
Α Obleser, J. & Weisz, N. (2012). Suppressed alpha oscillations predict intelligibility of speech and sensory gain control. Cerebral Cortex, 22(9), 2466–2477.
Δ–Γ Goswami, U. (2022). Language acquisition and speech rhythm patterns: an auditory neuroscience perspective. Royal Society Open Science, 9(3), 211855.
Every syllable is a gate–bleat–gate sandwich, or a bleat with gates on one or both sides. pin = gate /p/ + bleat /ɪ/ + gate /n/. in = bleat /ɪ/ + gate /n/. The bleat is always the heart of the syllable. No bleat, no word in English.
What might connected phonation be doing?
Grounded claim: connected phonation is supported as a practical decoding routine. In the Gonzalez-Frey and Ehri study, beginning readers learned to decode CVC nonwords more successfully when they practiced phonating through the word instead of separating each sound first. The most conservative explanation is cognitive and instructional: the child has less memory load and fewer breaks to repair.
Neural theory: Goswami’s Temporal Sampling Framework and related S-AMPH work point to nested timing in speech: slower stress/prosody and syllable-rate structure help organize faster onset-rime and phoneme information. In dyslexia, the better-grounded concern is not simply a damaged “gamma phoneme level,” but atypical timing/phase-locking to the speech envelope and reduced sensitivity to amplitude rise time cues.
Working hypothesis: connected phonation may incidentally preserve the syllable as one acoustic event while the child notices the internal sound changes. That could make onset and vowel transitions easier to locate. This is plausible, but it is still a hypothesis. I should not claim that connected phonation directly trains theta-gamma entrainment unless future studies measure neural entrainment during the routine.
Teaching implication: use connected phonation as a blending tool, not as a neuroscience cure. Keep the voice moving through the word, but keep the sound changes crisp: mmmăp, sssăm. Avoid over-stretching sounds into a long fade that blurs the rise-onset cue.
Breve marking: marking the short vowel with a breve is safest to describe as an attention cue. It helps the learner notice the vowel nucleus and the short-vowel job in the syllable. Any claim that it drives theta entrainment would be too speculative for this workbook.
S-AMPH, EE, RRT and outcome evidence
The Spectral Amplitude Modulation Phase Hierarchy (S-AMPH) model analyses the speech envelope as nested amplitude modulation layers at three rates: ~2 Hz (stress foot / delta), ~5 Hz (syllable / theta), and ~20 Hz (onset-rime / beta-gamma). The phase relationship between the 2 Hz and 5 Hz tiers encodes strong versus weak syllable stress. Infant-directed speech and nursery rhymes show enhanced delta-band modulation energy and stronger 2 Hz / 5 Hz phase alignment than adult-directed speech — which is why they are so effective for early language acquisition. Cross-culturally, mothers sing lullabies at approximately 120 beats per minute (2 Hz), matching the preferred spontaneous tempo for infants and the peak of the delta-band entrainment mechanism (Goswami, 2022).
Intervention
Mechanism
Key finding
Effect / caveat
Rhythmic Reading Training (RRT)
Russo et al.; Flaugnacco et al.
Russo et al.; Flaugnacco et al.
Reading synchronised to isochronous drumbeat at prosodic rate; adaptive tempo; visual cueing of stressed syllable
RCT (N=28, Italian): significant gains in reading speed and accuracy after only 4.5 hours total training. Comparative vs visual-attention + action-video-game: RRT superior for pseudoword reading speed
d = 0.87 reading speed; d = 1.10 pseudoword speed. Small samples; transparent orthography. Rhythm helps children segment the hierarchical AM structure underlying phonological structure.
Envelope Enhancement (EE)
Chin & Aruthanan (2025, Springer Encyclopedia of Educational Innovation)
Chin & Aruthanan (2025, Springer Encyclopedia of Educational Innovation)
Algorithm automatically detects and amplifies amplitude onset rise times in speech — boosts the temporal edge that triggers neural phase-resetting. Operates at the sensory level, before phonological processing. Tablet-based; works offline.
Combined with GraphoGame Rime in at-risk kindergarteners. EE modifies auditory input quality; GraphoGame targets cognitive representations that depend on it. Preliminary: altered theta-delta power ratio. Full RCT ongoing (COVID interrupted Phase 2).
Not yet an RCT outcome. Theoretically the closest match to the correct continuous phonation approach: sharpen the onset slope, preserve the rise. Two-level intervention targeting both sensory substrate and phonological skill simultaneously.
GraphoGame Rime
Goswami's Cambridge team
Goswami's Cambridge team
Onset-rime phonics via adaptive game. Operates at rime grain size — lower cognitive load than phoneme-level for children with impaired rapid temporal processing. Onset + rime → analogical generalisation to new words.
Multiple RCTs: PA d = 0.6–1.0; letter-sound knowledge d = 0.5–0.8; word reading accuracy d = 0.3–0.6. Strongest effects for rime-consistent words.
Optimal for opaque orthographies (English). When combined with EE: additive benefits hypothesised across auditory-phonological cascade from sensory to cognitive level.
Poppins
Tablet, French; rhythm + phonics
Tablet, French; rhythm + phonics
Rhythm mini-games + graphophonological conversion exercises (50/50). Evolution of Mila-Learn; follows French College of Speech Therapy guidelines. 8 weeks × 5 sessions × 20 min.
N=38: +11.46 word accuracy, +10.26 reading speed. Phonological skills d = 0.48 vs Mila-Learn alone — rhythm + explicit phonics yields additive benefit over rhythm alone.
Single-arm; no active control. Home-based, autonomous. The additive phonics effect supports combining temporal processing training with GPC instruction rather than either alone.
Mila-Learn
Digital medical device (EUID: 3760371850020)
Digital medical device (EUID: 3760371850020)
Digital rhythm games: repetition, synchronisation, and completion in a narrative. Ages 7–11. 8 weeks × 5 × 25 min.
N=151 RCT vs placebo: +5.05 word accuracy (p=0.046), +5.44 reading speed (p=0.037). Phonological trend p=0.10. First large-scale RCT for a rhythm-only digital intervention.
Effects not maintained at 2-month follow-up. No significant effect on nonword decoding. Poppins (rhythm + phonics) outperforms Mila-Learn (rhythm alone) on phonological outcomes.
Bhide, Power & Goswami (2013) — drumming
Group bongo drumming: beat synchronisation, rhythm reproduction and discrimination over 6 weeks. Sensorimotor entrainment via coupling of motor oscillators to auditory temporal processing system.
~30 children: significant improvements in ART discrimination, phonological awareness, and reading vs letter-based control. Cross-domain transfer from motor rhythm to auditory temporal processing to phonology to reading.
No active control; small sample. Theoretically the most direct evidence that sensorimotor rhythm practice directly remediates the substrate-level ART deficit — not merely compensates for it.
Amplitude envelope priming
Ríos-López et al.
Ríos-López et al.
Slow AM priming (<8 Hz) before phonological task
Improved pseudoword recall in Grade 5 poor readers in noisy conditions; no effect in Grade 2
Passive listening only; age-limited; task-specific; no neural measures. Passive listening does not produce the same substrate benefit as active sensorimotor engagement.
For accuracy outcomes: Flanagan et al. (2024) — median Ba Rise thresholds 136 ms (dyslexia) vs 106 ms (controls) at age ~9, p < 0.001, persistent across all time points. Time Point 1 ART sensitivity significantly predicted Time Point 3 phonological awareness and phonological STM after controlling for age and non-verbal IQ. The /ba/ task additionally predicted rapid automatised naming and literacy outcomes.
The honest summary: the theoretical framework is strong, the longitudinal prediction data are compelling, the intervention evidence is growing fast. RRT's d = 0.87 from only 4.5 hours is remarkable. But no published RCT has yet measured neural entrainment before and after a rhythm-based programme and linked changes in entrainment to changes in reading accuracy. That study has not been done.
On the green and cobalt in this workbook. The research uses green overlays for amplitude energy contours and red/orange markers for rise-time intervals (Lin & Rathcke, 2025; Goswami group convention). Our handwriting pages use forest green to mark the short /ɪ/ vowel zone — the bleat, the energy-bearing syllable nucleus — and cobalt for the, the schwa, the reduced vowel. The colour logic converged independently with the acoustic literature.