Categories: All - estimation - strategies - materials - subtraction

by Emma Paterson 3 years ago

195

Progression of Early Number and Counting

Engaging young learners in mathematics involves a variety of strategies and tools to support their understanding of numbers and counting. For early grades like kindergarten and first grade, using dot cards, dominos, and dice can help children develop subitizing skills, which are foundational for estimation.

Progression of Early Number and Counting

Progression of Early Number and Counting

Modelling

Modelling is very important for students to learn these big ideas and strategies
Is there a way to model this problem that might help me start working on this problem?

Big Ideas:

Representation
Decomposition and Composition of Numbers
Abstraction- the idea that a quantity can be represented by different things
Relationships
Anchors of 5 and 10- students develop the understanding that numbers such as 2 can be thought of in relation to 5
Unitizing- the idea that in the base ten system, objects are grouped into tens once the count exceeds 9
Part-Part Whole- the ideas that quantities represented by such numbers are made up of different parts
Quantity
Proportions
Conservation of Number - the idea that the count for a set group of objects stays the same no matter whether the objects are spread out or are close together
Cardinality- the idea that the last count of a group of objects represents the total number of objects in the group
Order Irrelevance- the idea that the counting of objects can begin with any object in a set and the total will still be the same
Operational Sense
Rational Numbers
Subitizing- recognize small quantities without having to count each of the objects
Counting
Movement is Magnitude- the idea that as one moves up the counting sequence, the quantity increases or vice versa
Hierarchical Inclusion
One-to-One Correspondence- the idea that each object being counted must be given one count and only one count
Rote Counting
Stable Order - the idea that the counting sequence stays consistent
Cognitive reorganizing when looking at big ideas
Brain needs to develop new synapses- similar to when mathematicians figure these big ideas out
Like Piaget's development of structures

Strategies

Used to figure out problems
Students will be surprised that the strategy works so they ask- will it work all the time?
Big ideas can help students create new strategies
Start with strategies that are less efficient gets refined and then are more efficient
Examples
For part-part-whole relationships, use things like counters, blocks, number lines, rekenreks (grade 1)
Use number lines and hundreds charts along with concrete materials to help with addition and subtraction (grade 1)

Concrete materials (i.e. beans) can be helpful for rote counting, one-to-one correspondence and cardinality (Kinder and grade 1)

Supporting students in identifying, developing, and describing useful strategies for solving addition and subtraction problems – for example, using known facts, using doubles (which are often readily remembered), making tens, using compensation, counting up, counting down, using a number line or hundreds chart, using the commutative property of addition (grade 1)
For number conservation, use things like linking cubes, games, dot strips, and other concrete materials to start learning about composing and decomposing numbers and addition and subtraction (Kinder)
Dot cards, dominos, number of fingers, and dice for subitizing (Kinder)

Subitizing is a good way to start learning estimation skills (Kinder)

Composing and Decomposing numbers is a strategy for subitizing (Kinder)

Using everyday situations as contexts for problems (calculating milk money, taking attendance) and/or using real-life contexts for problems (grade 1)
Encourage group work and drawing representations of math problems to help find the solution (grade 1 and Kinder)
Use number lines or hundreds carpet for rote counting (Kinder)