An educator since 1979, Tammy L. Jones has worked with students from first grade through college. Currently, Tammy is consulting with individual school districts in training teachers on strategies for making content accessible to all learners. Writing integrations as well as literacy connections are foundational in everything Tammy does. A variety of resources are offered for mathematics Pre-K through 12 as well as several that are interdisciplinary. Electronic trainings are also offered.
An educator since 1979, Tammy L. Jones has worked with students from first grade through college. Currently, Tammy is consulting with individual school districts in training teachers on strategies for making content accessible to all learners. Writing integrations as well as literacy connections are foundational in everything Tammy does. A variety of resources are offered for mathematics Pre-K through 12 as well as several that are interdisciplinary. Electronic trainings are also offered.
Students learn mathematics more effectively and more deeply when reading and writing is directed at learning mathematics. (Bossé and Faulconer 2008) This packet includes four activities that target foundational components for developing understandings and building fluency with key mathematical topics: Probability.
Vocabulary and writing are targeted and facilitation notes are provided to support making mathematics content accessible to all learners. Templates and additional resources are provided.
This resource is good for children with Dyslexia and language-based learning deficiencies. We'd like to hear about your experience with our resources. Just give it a star rating then tell us what you think, simple as that!
Students learn mathematics more effectively and more deeply when reading and writing is directed at learning mathematics. (Bossé and Faulconer 2008) This packet includes four activities that target foundational components for developing understandings and building fluency with key mathematical topics: Ratios & Proportional Reasoning.
Vocabulary and writing are targeted and facilitation notes are provided to support making mathematics content accessible to all learners. Templates and additional resources are provided.
This resource is good for children with Dyslexia and language-based learning deficiencies. We'd like to hear about your experience with our resources. Just give it a star rating then tell us what you think, simple as that!
Students learn mathematics more effectively and more deeply when reading and writing is directed at learning mathematics. (Bossé and Faulconer 2008) This packet includes four activities that target foundational components for developing understandings and building fluency with key mathematical topics: The Pythagorean Theorem.
Vocabulary and writing are targeted and facilitation notes are provided to support making mathematics content accessible to all learners. Templates and additional resources are provided.
This resource is good for children with Dyslexia and language-based learning deficiencies. We'd like to hear about your experience with our resources. Just give it a star rating then tell us what you think, simple as that!
Students learn mathematics more effectively and more deeply when reading and writing is directed at learning mathematics. (Bossé and Faulconer 2008) This packet includes four activities that target foundational components for developing understandings and building fluency with key mathematical topics: Quadratic Functions.
Vocabulary and writing are targeted and facilitation notes are provided to support making mathematics content accessible to all learners. Templates and additional resources are provided.
This resource is good for children with Dyslexia and language-based learning deficiencies. We'd like to hear about your experience with our resources. Just give it a star rating then tell us what you think, simple as that!
Students learn mathematics more effectively and more deeply when reading and writing is directed at learning mathematics. (Bossé and Faulconer 2008) This packet includes four activities that target foundational components for developing understandings and building fluency with key mathematical topics: Linear Functions.
Vocabulary and writing are targeted and facilitation notes are provided to support making mathematics content accessible to all learners. Templates and additional resources are provided.
This resource is good for children with Dyslexia and language-based learning deficiencies. We'd like to hear about your experience with our resources. Just give it a star rating then tell us what you think, simple as that!
Students learn mathematics more effectively and more deeply when reading and writing is directed at learning mathematics. (Bossé and Faulconer 2008) This packet includes four activities that target foundational components for developing understandings and building fluency with key mathematical topics: Probability.
Vocabulary and writing are targeted and facilitation notes are provided to support making mathematics content accessible to all learners. Templates and additional resources are provided.
This resource is good for children with Dyslexia and language-based learning deficiencies. We'd like to hear about your experience with our resources. Just give it a star rating then tell us what you think, simple as that!
Students learn mathematics more effectively and more deeply when reading and writing is directed at learning mathematics. (Bossé and Faulconer 2008) This packet includes four activities that target foundational components for developing understandings and building fluency with key mathematical topics: Right Triangles and Trigonometry.
Vocabulary and writing are targeted and facilitation notes are provided to support making mathematics content accessible to all learners. Templates and additional resources are provided.
This resource is good for children with Dyslexia and language-based learning deficiencies. We'd like to hear about your experience with our resources. Just give it a star rating then tell us what you think, simple as that!
Secondary students participate in a kinesthetic activity that reviews distance in relation to rate and time as well as a study of slope in relation to a contextual example.
Students will use a three-dimensional experience to connect on two-dimensional space. Student reporting sheet, group observation sheet, review probes and class power point are provided.
This resource is good for students with dyslexia and language-based learning deficiencies.
Writing is one of the parts of language that young mathematicians are developing along with their reading, talking, and listening skills. For many students what they know about mathematics may exceed their ability to communicate it through the written word. Children learn to write by writing. Writing needs to be original thought, not just copying something that someone else wrote. Therefore it is imperative that opportunities are provided often for young children to engage in writing about mathematics. For the teacher, providing an environment that is rich in mathematical language is a priority.
The following four learning station/center ideas can be first discussed in the classroom in a large group or small group setting before rotating out to an independent learning center. Facilitation notes are provided below for each station. The ideas presented are but a start for the many ways in which these activities can be adapted. Most of the masters have been made so they can be easily used in The Mathematician’s Notebook.
Writing is one of the parts of language that young mathematicians are developing along with their reading, talking, and listening skills. For many students what they know about mathematics may exceed their ability to communicate it through the written word. Children learn to write by writing. Writing needs to be original thought, not just copying something that someone else wrote. Therefore it is imperative that opportunities are provided often for young children to engage in writing about mathematics.
For the teacher, providing an environment that is rich in mathematical language is a priority. The following four learning station/center ideas can be first discussed in the classroom in a large group or small group setting before rotating out to an independent learning center. Facilitation notes are provided below for each station. The ideas presented are but a start for the many ways in which these activities can be adapted. Most of the masters have been made so they can be easily used in The Mathematician’s Notebook.
This packet offers 10 diverse opportunities for writing in mathematics with over 35 individual prompts for intermediate students. Writing in mathematics involves more than just putting word to paper. Words need to be carefully chosen to communicate ideas and concepts clearly. Writing involves all of the language of mathematics. Reading, vocabulary, notations and symbols, diagrams, charts, graphs, and metacognition all serve a role as students are engaged in writing in mathematics. Many and varied opportunities need to be provided for students to engage in original thought writing. And remember, just because a students can say something in words, it in no way shows that they can write those same thoughts. Those are two different skill sets.
Writing also provides opportunities for the verbal learner to excel as well as the creative learner. This beginning assortment of writing prompts can be adapted as needed for the course, topic, and level of the students. The important thing is to write! Just asking, “Why?”, “How did you think about that?”, “What could be another strategy used here?”, and “Is your conclusion reasonable?” requires students to engage in more than just procedural mathematics. On the back page is a sample of how journal prompt cards can be made for learning station facilitation or to print on labels for ELL/ESL and struggling learners and beginning writers.
Students learn mathematics more effectively and more deeply when reading and writing is directed at learning mathematics. (Bossé and Faulconer 2008) This packet includes four activities that target foundational components for developing understandings and building fluency with key mathematical topics: addition & subtraction. Vocabulary and writing are targeted and facilitation notes are provided to support making mathematics content accessible to all learners. Templates and additional resources are provided.
This resource is good for children with Dyslexia and language-based learning deficiencies. We'd like to hear about your experience with our resources. Just give it a star rating then tell us what you think, simple as that!
This packet offers 10 diverse opportunities for writing in mathematics with over 35 individual prompts for intermediate students. Writing in mathematics involves more than just putting word to paper. Words need to be carefully chosen to communicate ideas and concepts clearly. Writing involves all of the language of mathematics. Reading, vocabulary, notations and symbols, diagrams, charts, graphs, and metacognition all serve a role as students are engaged in writing in mathematics. Many and varied opportunities need to be provided for students to engage in original thought writing. And remember, just because a students can say something in words, it in no way shows that they can write those same thoughts. Those are two different skill sets.
Writing also provides opportunities for the verbal learner to excel as well as the creative learner. This beginning assortment of writing prompts can be adapted as needed for the course, topic, and level of the students. The important thing is to write! Just asking, “Why?”, “How did you think about that?”, “What could be another strategy used here?”, and “Is your conclusion reasonable?” requires students to engage in more than just procedural mathematics. On the back page is a sample of how journal prompt cards can be made for learning station facilitation or to print on labels for ELL/ESL and struggling learners and beginning writers.
This packet offers 8 diverse opportunities for writing in mathematics with over 35 individual prompts for primary students. Writing in mathematics involves more than just putting word to paper. Words need to be carefully chosen to communicate ideas and concepts clearly. Writing involves all of the language of mathematics. Reading, vocabulary, notations and symbols, diagrams, charts, graphs, and metacognition all serve a role as students are engaged in writing in mathematics. Many and varied opportunities need to be provided for students to engage in original thought writing. And remember, just because a students can say something in words, it in no way shows that they can write those same thoughts. Those are two different skill sets.
Writing also provides opportunities for the verbal learner to excel as well as the creative learner. This beginning assortment of writing prompts can be adapted as needed for the course, topic, and level of the students. The important thing is to write! Just asking, “Why?”, “How did you think about that?”, “What could be another strategy used here?”, and “Is your conclusion reasonable?” requires students to engage in more than just procedural mathematics. On the back page is a sample of how journal prompt cards can be made for learning station facilitation or to print on labels for ELL/ESL and struggling learners and beginning writers.
This packet offers 11 diverse opportunities for writing in mathematics with over 30 individual prompts for middle school students. Writing in mathematics involves more than just putting word to paper. Words need to be carefully chosen to communicate ideas and concepts clearly. Writing involves all of the language of mathematics. Reading, vocabulary, notations and symbols, diagrams, charts, graphs, and metacognition all serve a role as students are engaged in writing in mathematics. Many and varied opportunities need to be provided for students to engage in original thought writing. And remember, just because a students can say something in words, it in no way shows that they can write those same thoughts. Those are two different skill sets.
Writing also provides opportunities for the verbal learner to excel as well as the creative learner. This beginning assortment of writing prompts can be adapted as needed for the course, topic, and level of the students. The important thing is to write! Just asking, “Why?”, “How did you think about that?”, “What could be another strategy used here?”, and “Is your conclusion reasonable?” requires students to engage in more than just procedural mathematics. On the back page is a sample of how journal prompt cards can be made for learning station facilitation or to print on labels for ELL/ESL and struggling learners and beginning writers.
One Duck Stuck, by Phyllis Root, is a beloved children’s book. Not only does the story engage children it can also serve as a foundation for many mathematical investigations for primary mathematicians. One interesting and important concept in mathematics is Pascal’s Triangle. The combination of One Duck Stuck and the related mathematical concepts that can be found in Pascal’s Triangle allows students a fun, unique, and engaging venue for developing mathematical literacy.
Questions are provided that can be used during the development of the activity to determine the desired focus of the lesson. It is very important that young mathematicians understand that numbers are quantities represented by numerals, pictures, numerals, etc. Materials are listed for each of the activities. The 24 pages include both black line masters as well as color masters have been provided. Suggestions for preparing the materials have been noted as well to facilitate making classroom sets for long term use.
Cubing and think dots are two strategies for differentiation in the classroom. Traditionally students are given a cube with a variety of activities or tasks at a given level. Different cubes can contain different levels of tasks and activities. Think dots work in a similar way. Cards with a certain number of dots are provided as well as a number cube. Students roll the number cube and work the associated activity or task on the card with the corresponding number of dots. Again, tasks and activities are varied or leveled to meet the needs of the students.
In this adaptation of a cubing and think dots activity, there are two cubes. One cube has representation of fractions. Another cube has actions to perform with fractions. There is a variety of activities that students can engage in on the set of 6 think dot cards.
This resource is good for children with Dyslexia and language-based learning deficiencies. We'd like to hear about your experience with our resources. Just give it a star rating then tell us what you think, simple as that!
This packet offers 11 diverse opportunities for writing in mathematics with over 40 individual prompts for primary students.
Writing in mathematics involves more than just putting word to paper. Words need to be carefully chosen to communicate ideas and concepts clearly. Writing involves all of the language of mathematics. Reading, vocabulary, notations and symbols, diagrams, charts, graphs, and metacognition all serve a role as students are engaged in writing in mathematics. Many and varied opportunities need to be provided for students to engage in original thought writing. And remember, just because a students can say something in words, it in no way shows that they can write those same thoughts. Those are two different skill sets. Writing also provides opportunities for the verbal learner to excel as well as the creative learner.
This beginning assortment of writing prompts can be adapted as needed for the course, topic, and level of the students. The important thing is to write! Just asking, “Why?”, “How did you think about that?”, “What could be another strategy used here?”, and “Is your conclusion reasonable?” requires students to engage in more than just procedural mathematics. On the back page is a sample of how journal prompt cards can be made for learning station facilitation or to print on labels for ELL/ESL and struggling learners and beginning writers.
This packet offers 11 diverse opportunities for writing in mathematics with over 30 individual prompts for middle school students. Writing in mathematics involves more than just putting word to paper. Words need to be carefully chosen to communicate ideas and concepts clearly. Writing involves all of the language of mathematics. Reading, vocabulary, notations and symbols, diagrams, charts, graphs, and metacognition all serve a role as students are engaged in writing in mathematics. Many and varied opportunities need to be provided for students to engage in original thought writing. And remember, just because a students can say something in words, it in no way shows that they can write those same thoughts. Those are two different skill sets.
Writing also provides opportunities for the verbal learner to excel as well as the creative learner. This beginning assortment of writing prompts can be adapted as needed for the course, topic, and level of the students. The important thing is to write! Just asking, “Why?”, “How did you think about that?”, “What could be another strategy used here?”, and “Is your conclusion reasonable?” requires students to engage in more than just procedural mathematics. On the back page is a sample of how journal prompt cards can be made for learning station facilitation or to print on labels for ELL/ESL and struggling learners and beginning writers.
Cubing and think dots are two strategies for differentiation in the classroom. Traditionally students are given a cube with a variety of activities or tasks at a given level. Different cubes can contain different levels of tasks and activities. Think dots work in a similar way. Cards with a certain number of dots are provided as well as a number cube. Students roll the number cube and work the associated activity or task on the card with the corresponding number of dots. Again, tasks and activities are varied or leveled to meet the needs of the students.
In this adaptation of a cubing and think dots activity, there are two cubes. One cube has constraints for the actions performed on expressions. Another cube has actions to perform on expressions. Students also use one or two number cubes or they can use dominoes to create the quantities determined by the constraint cube. There is a variety of activities that students can engage in on set of 6 think dot cards. A blank set of think dot cards is provided for the teacher to fill in as needed – for example – choosing particular problems from a set in a text.
We'd like to hear about your experience with our resources. Just give it a star rating then tell us what you think, simple as that!