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.
Vocabulary is one of the foundations for developing understanding for any subject area and mathematics is no exception. For many students words used in mathematics may not be familiar in context. Students need many opportunities to use vocabulary in their daily work. Providing additional opportunities to review vocabulary in a learning station, center, or small group will help support students who are challenged by the language of mathematics.
These five vocabulary ideas can be first used in the classroom in a large group or small group setting before rotating out to an independent/pair learning center. Specific mathematical topics are included but the activities can be adapted for any topic, or discipline for that matter.
Facilitation notes are provided for each station. The ideas presented are but a start for the many ways in which these activities can be adapted. These are licensed for one classroom use only.
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.
Writing is one of the parts of language that secondary mathematicians are still developing. For some students, ESL/ELL for example, what they know about mathematics may exceed their ability to communicate it through the written word. For that reason, pictures, diagrams, and the use of manipulatives support the students’ efforts in communicating about their mathematical experiences. Students 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 students to engage in writing about mathematics.
As the teacher, providing an environment that is rich in mathematical language is a priority. Providing students a Mathematicians’ Notebook, if for nothing else but the development of a Glossary and a Journal, offers a place where students can record their thoughts and experiences as it chronicles their growth over time while on their mathematical journey. Students’ writing should include discussions about what they did or how they thought, why they thought or did what they did. Strategy names and correct mathematical language need to be included as appropriate. Students’ writing should make sense and be complete. This will develop over time for secondary mathematicians as they have more opportunities to write about their experiences.
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 secondary mathematicians are still developing. For some students, ESL/ELL for example, what they know about mathematics may exceed their ability to communicate it through the written word. For that reason, pictures, diagrams, and the use of manipulatives support the students’ efforts in communicating about their mathematical experiences. Students 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 students to engage in writing about mathematics. As the teacher, providing an environment that is rich in mathematical language is a priority. Providing students a Mathematician's’ Notebook, if for nothing else but the development of a Glossary and a Journal, offers a place where students can record their thoughts and experiences as it chronicles their growth over time while on their mathematical journey. Students’ writing should include discussions about what they did or how they thought, why they thought or did what they did. Strategy names and correct mathematical language need to be included as appropriate. Students’ writing should make sense and be complete. This will develop over time for secondary mathematicians as they have more opportunities to write about their experiences.
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.
Primary mathematicians first model “put together” and “take apart” situations using concrete objects, drawings, etc. These concepts are then expanded to composing and decomposing numbers additively. A connection to students’ prior work with building sets is important as students are developing fluencies with their addition and subtractions facts. Children need many opportunities to experience these situations.
Incorporating seasonal manipulatives allow children to practice these mathematical ideas in a contextual setting. To effectively facilitate these activities, be sure to cover the common addition and subtraction situations found in Table 1, CCSSM, page 88. Color masters are provided for both activities, the seasonal objects as well as the counters. Hyperlinks are also provided for manipulatives when applicable.
This resource is useful for students 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!
Primary mathematicians first model “put together” and “take apart” situations using concrete objects, drawings, etc. These concepts are then expanded to composing and decomposing numbers additively. A connection to students’ prior work with building sets is important as students are developing fluencies with their addition and subtractions facts. Children need many opportunities to experience these situations.
Incorporating seasonal manipulatives allow children to practice these mathematical ideas in a contextual setting. To effectively facilitate these activities, be sure to cover the common addition and subtraction situations found in Table 1, CCSSM, page 88. Color masters are provided for both activities, the seasonal objects as well as the counters. Hyperlinks are also provided for manipulatives when applicable.
This resource is useful for students 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!
Primary mathematicians first model “put together” and “take apart” situations using concrete objects, drawings, etc. These concepts are then expanded to composing and decomposing numbers additively. A connection to students’ prior work with building sets is important as students are developing fluencies with their addition and subtractions facts. Children need many opportunities to experience these situations.
Incorporating seasonal manipulatives allows children to practice these mathematical ideas in a contextual setting. To effectively facilitate these activities, be sure to cover the common addition and subtraction situations found in Table 1, CCSSM, page 88. Color masters are provided for both activities, the seasonal objects as well as the counters. Hyperlinks are also provided for manipulatives when applicable.
This is a collection of 10 blackline masters, including a set of elapsed time problems for use with time. There are masters that can be used as writing prompts and journal entries as well as graphic organizers and tolls for supporting students work with time.
This resource is good for students with dyslexia and language-based learning deficiencies. Please take a moment to review this resource.
Primary mathematicians first model “put together” and “take apart” situations using concrete objects, drawings, etc. These concepts are then expanded to composing and decomposing numbers additively. A connection to students’ prior work with building sets is important as students are developing fluencies with their addition and subtractions facts. Children need many opportunities to experience these situations.
Incorporating seasonal manipulatives allow children to practice these mathematical ideas in a contextual setting. To effectively facilitate these activities, be sure to cover the common addition and subtraction situations found in Table 1, CCSSM, page 88. Color masters are provided for both activities, the seasonal objects as well as the counters. Hyperlinks are also provided for manipulatives when applicable.
This resource is useful for students 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!
Primary mathematicians first model “put together” and “take apart” situations using concrete objects, drawings, etc. These concepts are then expanded to composing and decomposing numbers additively. A connection to students’ prior work with building sets is important as students are developing fluencies with their addition and subtractions facts.
Children need many opportunities to experience these situations. Incorporating seasonal manipulatives allows children to practice these mathematical ideas in a contextual setting. To effectively facilitate these activities, be sure to cover the common addition and subtraction situations found in Table 1, CCSSM, page 88.
Nine seasonal and topical activities are included. Color masters are provided for both tables for each of the activities, the seasonal objects as well as the counters. Hyperlinks are also provided for manipulatives when applicable.
This resource is useful for students 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 mathematicians are developing functional fluency in their study of mathematics. One of the primary representations of functions is the graph. Here is a set of ten graphs of points through which students can try to create functions that will “catch” the most points with the graph. Some of the graphs have points that appear to be quadratic in nature, some linear, and some exponential. The type of graph created can depend upon the student, their level, the mathematical topic being studied, or the teacher’s desire.
These make nice journal prompts as well as activities for learning stations. Encourage students to use their graphing technology, TI-Nspire, TI-84 family, etc, as a tool of investigation. Students need to record each of their trials and discuss their thinking as they made refinements to their original function.
This resource is useful for students 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!
The study of the history of mathematics allows students to understand where and how some of the mathematics with which they work came from or was derived. There are resources for teachers and students as well as some activities and topics and projects for students to investigate. Writing and presentation opportunities are included. A writing project, trade card project and a scavenger hunt are included.
This resource is useful for students 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!
Paper folding can be a useful tool of investigation for some students. Here are a few opportunities for using paper folding in the secondary mathematics classroom from difference of squares to an infinite geometric sequence. Directions are included as well as an extension activity for a learning station on paper folding to punch one hole and create a pattern.
This resource is useful for students 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!
Do trade books have a place in today’s mathematics classroom? Yes! Incorporating literature into the mathematics classroom at any level can increase student engagement, make mathematics come alive and have meaning, and can help to differentiate instruction as well as support ELL/ESL students. Present mathematics in a way that will make mathematics more accessible and understandable for students at all levels.
This resource contains ten suggested activities to engage students AS YOU READ, for students to experience BEING A MATHEMATICIAN, and provide authentic OPPORTUNITIES FOR WRITING. The suggested activities can be adapted for a large or small group, centers, learning stations and for intervention.
This resource is good for students with 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!
Book not included.
Do trade books have a place in today’s mathematics classroom? Yes! Incorporating literature into the mathematics classroom at any level can increase student engagement, make mathematics come alive and have meaning, and can help to differentiate instruction as well as support ELL/ESL students. Present mathematics in a way that will make mathematics more accessible and understandable for students at all levels.
This resource contains seven suggested activities to engage students AS YOU READ, for students to experience BEING A MATHEMATICIAN, and provide authentic OPPORTUNITIES FOR WRITING. The suggested activities can be adapted for a large or small group, centers, learning stations and for intervention.
This resource is good for students with 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!
Book not included.
Do trade books have a place in today’s mathematics classroom? Yes! Incorporating literature into the mathematics classroom at any level can increase student engagement, make mathematics come alive and have meaning, and can help to differentiate instruction as well as support ELL/ESL students. Present mathematics in a way that will make mathematics more accessible and understandable for students at all levels.
This resource contains five suggested activities and "Wild Fibonacci" activity to engage students AS YOU READ, for students to experience BEING A MATHEMATICIAN, and provide authentic OPPORTUNITIES FOR WRITING. The suggested activities can be adapted for a large or small group, centers, learning stations and for intervention.
This resource is good for students with 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!
Book not included.
Do trade books have a place in today’s mathematics classroom? Yes! Incorporating literature into the mathematics classroom at any level can increase student engagement, make mathematics come alive and have meaning, and can help to differentiate instruction as well as support ELL/ESL students. Present mathematics in a way that will make mathematics more accessible and understandable for students at all levels.
This resource contains nine suggested activities and a blackline master to engage students AS YOU READ, for students to experience BEING A MATHEMATICIAN, and provide authentic OPPORTUNITIES FOR WRITING. The suggested activities can be adapted for a large or small group, centers, learning stations and for intervention.
This resource is good for students with 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!
Book not included.
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.
Vocabulary is one of the foundations for developing understanding for any subject area and mathematics is no exception. For many students words used in mathematics may not be familiar in context. Students need many opportunities to use vocabulary in their daily work. Providing additional opportunities to review vocabulary in a learning station, center, or small group will help support students who are challenged by the language of mathematics.
These five vocabulary ideas can be first used in the classroom in a large group or small group setting before rotating out to an independent/pair learning center. Specific mathematical topics are included but the activities can be adapted for any topic, or discipline for that matter. Facilitation notes are provided for each station. The ideas presented are but a start for the many ways in which these activities can be adapted. These are licensed for one classroom use only.
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!
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 student 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.
Vocabulary is one of the foundations for developing understanding for any subject area and mathematics is no exception. For many students words used in mathematics may not be familiar in context. Students need many opportunities to use vocabulary in their daily work. Providing additional opportunities to review vocabulary in a learning station, center, or small group will help support students who are challenged by the language of mathematics.
These five vocabulary ideas can be first used in the classroom in a large group or small group setting before rotating out to an independent/pair learning center. Specific mathematical topics are included but the activities can be adapted for any topic, or discipline for that matter. Facilitation notes are provided for each station. The ideas presented are but a start for the many ways in which these activities can be adapted. These are licensed for one classroom use only.
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!