Combining information from texts
PROCEDURALIntegrate information from two texts on the same topic in order to write or speak about the subject knowledgeably, combining and comparing what each source contributes
Mastery Evidence
- Read two informational texts on the same topic and identify information that appears in both, information unique to each, and any contradictions between them
- Combine key details from two sources into a coherent summary or short report that draws on both texts
- Explain how reading a second text on the same topic added to, confirmed, or challenged understanding gained from the first text
Assessment Prompt
“If [child] is researching a topic using two different books or articles, can they combine the information they've gathered from both to talk or write about the subject more fully than either source alone?”
Curriculum Standards1 alignment
RI.4.9Common Core State Standards for English Language Arts & Literacy in History/Social Studies, Science, and Technical SubjectsIntegrate information from two texts on the same topic in order to write or speak about the subject knowledgeably.
Prerequisites1
- Connecting Ideas in TextshardAges 8—9
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- Connecting Ideas in Texts hard
Integrating information from two texts builds on describing connections in informational text; the step up is from within-text connections to cross-text synthesis
- Main Topic of Informational Texts hard
Describing connections in informational text builds on identifying main topic and key details
- Main Topic & Key Details hard
Identifying logical connections between paragraphs builds on multi-paragraph main idea work
- Main Topic of Informational Texts hard
Multi-paragraph main idea analysis builds on identifying main topic and key details in simpler texts
- Representing numbers with objects (age 8+) soft
Cross-subject: understanding informational text connections (e.g. texts with charts/graphs) benefits from data representation literacy in maths
- Pictograms and tally charts hard
Constructing simple pictograms/tables is prerequisite to scaled versions
- Pictograms and tally charts (age 6+) hard
Constructing pictograms, tally charts, and bar charts requires these display vocabulary terms
- Sorting into categories hard
Constructing pictograms and tally charts requires classifying and counting objects first
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 soft
Counting a set helps when comparing groups, but younger children (GB age 4) can compare using matching without formal counting to 20
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Sorting Data into Categories soft
Data representation formats (pictograms, tally charts) support organising data
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Pictograms and tally charts (age 6+) hard
Organising and representing data requires data, tally, frequency, and category vocabulary
- Sorting into categories hard
Organising data in categories builds on classifying and counting objects in categories
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 soft
Counting a set helps when comparing groups, but younger children (GB age 4) can compare using matching without formal counting to 20
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Pictograms and tally charts (age 6+) hard
Drawing scaled bar charts and pictograms requires axis, scale, label, and frequency vocabulary
- Sorting Data into Categories hard
Drawing picture/bar graphs extends organising and representing data
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Pictograms and tally charts (age 6+) hard
Organising and representing data requires data, tally, frequency, and category vocabulary
- Sorting into categories hard
Organising data in categories builds on classifying and counting objects in categories
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 soft
Counting a set helps when comparing groups, but younger children (GB age 4) can compare using matching without formal counting to 20
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
Unlocks1
- Synthesising across multiple textshardAges 10—11