Breaking Barriers and Building Confidence: Overcoming Math Anxiety in Early Years Through Joint Planning to Improve Outcomes

Breaking Barriers and Building Confidence

Overcoming Math Anxiety in Early Years Through Joint Planning to Improve Outcomes

1 / 25

Slide 1: Diapositive

MathematicsFurther Education (Key Stage 5)

Cette leçon contient 25 diapositives, avec quiz interactifs, diapositives de texte et 1 vidéo.

La durée de la leçon est: 60 min

Éléments de cette leçon

Breaking Barriers and Building Confidence

Overcoming Math Anxiety in Early Years Through Joint Planning to Improve Outcomes

Slide 1 - Diapositive

What's one thing you hope to take away from today's session?

Slide 2 - Question ouverte

Every teacher is a maths teacher.
Do you agree?

Yes

Not sure

Slide 3 - Sondage

Session Aims

Discuss why the initiative was introduced
Share the Numeracy in Early Years concept with peers
Explore how Cuisenaire rods could support the development of mathematical concepts.

Discuss how similar models could be replicated in other areas.

Slide 4 - Diapositive

Context

Traineeship Framework – Consists of five key components, including Level 2 Literacy and Numeracy to achieve a Traineeship Diploma
Learner Profile – Weaker entry profile lower entry profile increasing the challenge of Level 2 achievement.
Timetabling Strategy – 578 hours allocated to childcare (including placement), plus targeted support: 40 hours for Traineeship Skills and 102 hours for essential skills. Numeracy in early years is embedded within childcare hours, optimising learning support with two tutors.
Strategic Alignment – This approach reinforces the Whole College Quality Improvement commitment, enhancing learner achievement and progression outcomes.

Slide 5 - Diapositive

Why the initiative was introduced

Address maths anxiety to remove barriers to learning
Build confidence in numeracy to develop positive attitudes
Promote collaborative planning to deepen curriculum expertise and exchange diverse teaching strategies for greater impact
Improve learning outcomes - structured, well-planned interventions and teaching methods can enhance mathematical understanding and success

Slide 6 - Diapositive

Slide 7 - Diapositive

Starting point

Voice of the students will bring the learning

Slide 8 - Diapositive

Topics identified by students

Ratio
Percentages
Formula
Scales
6,7, and 9 times tables
Division
Pie Charts
Area, perimeter and volume
Metric conversion

Slide 9 - Diapositive

Teaching and learning

Learning environment was key
Student-centred learning
Active learning
Numeracy investigations
Mini-project
Compassionate, respectful approach
Unconditional positive regard (Carl Rogers)

Slide 10 - Diapositive

Slide 11 - Vidéo

Numeracy investigations

Careful planning of questions
What questions am I going to ask? How will I ask them? When will I ask them? What will I do with the responses? How will I handle a wrong answer?
Questions that are very useful to promote mathematical thinking include:
What’s the same? What’s different?
What do you see? What would you do next? How does this link to our last lesson? Why is this NOT an example of….?Can you give me an example of …? How would you explain this to another student?

Slide 12 - Diapositive

Types of resources used

2 main factors helped us to determine the types of resources to use.
In Early Years settings children’s engagement with mathematics is often described as a process of ‘play’.
In best practice a play approach to mathematics should be taken whatever the age of the learner (Association of Teachers of Mathematics)
Manipulatives – learners relate better to physical things rather than pictures or verbal descriptions. A physical object can help clarify a concept.
Posters – to summarise knowledge of a topic
Card matching activities
Displaying students’ work – discussing why this is a good piece of work.

Slide 13 - Diapositive

Group task using Cuisenaire rods: upload a photo of one of your answers from either task 1, task 2 or task 3

Slide 14 - Question ouverte

What mathematical topics could Cuisenaire rods help with?

Slide 15 - Question ouverte

Mini-project on refurbishing an early years suite

Easily able to identify a meaningful project
Many of the topics learners had identified as a focus: scale drawings, pie charts, area, perimeter
Incorporated use of TEL
Cross-curricular links to literacy and other CCLD units

Slide 16 - Diapositive

Sketch of the room

Sample exam answer where drawing a sketch was required

Slide 17 - Diapositive

Scale drawing calculations using the scale 2cm =1m

Exam question using the same scale

Slide 18 - Diapositive

Table to show spending of £3000

Exam question on creating a table

Slide 19 - Diapositive

Scale drawing of the early years suite

Sample question on scale drawing on exam

Slide 20 - Diapositive

When to use context?

From initial assessment right up to preparing for exams
Most effective in early stages of a course to engage learners
It is important to introduce a wide variety of contexts and that learners move onto contexts that they are not familiar with

(Mathematics Education Innovation)

Slide 21 - Diapositive

What made this a success?

Mutual learning and collaboration
Respect for each individual learner and planning activities to reduce anxiety
Effective use of Technology Enhanced Learning (Met Engage)
An inclusive and enabling environment
Student feedback

Slide 22 - Diapositive

What we learned from this?

Improved awareness of each other's subject
Learned how to meaningfully contextualise essential skills within the vocational area
Contexts can be used from initial assessment right up to preparing for exams
Value of relationships among peers and teachers
Supporting students' essential skills is a shared responsibility

Slide 23 - Diapositive

Every teacher is a maths teacher.

We can support students by reinforcing maths that occurs naturally
Doing this helps students to make connections and provides them with more variation
If the maths is being represented in lots of different ways, it will lead to deeper understanding
Deeper understanding helps to commit learning to the long-term memory

Slide 24 - Diapositive

What are your questions?

Slide 25 - Diapositive