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Activity 1

Standards Alignment

Building On

Addressing

Building Toward

Instructional Routines

None

Materials

None

Activity Narrative

This activity introduces students to the standard algorithm for multiplication. Students make sense of it by comparing and contrasting it to an algorithm that uses partial products for multiplying three- and four-digit numbers by one-digit numbers where no regrouping is necessary. When they interpret the given student work showing the standard algorithm students construct a viable argument for what Kiran did in his calculation (MP3). They also have an opportunity to make use of the structure they notice to compute the value of other products.

MLR8 Discussion Supports. Synthesis: Create a visual display of Diego’s algorithm. As students share their strategies, annotate the display to illustrate connections. For example, next to each step, write the multiplication expression used to find each partial product.
Advances: Speaking, Representing

Launch

Groups of 2

Activity

“Traten de entender los algoritmos de Kiran y de Diego. Cuéntenle a su compañero en qué se parecen y en qué son diferentes los algoritmos y cómo creen que Kiran encontró su respuesta” // “Make sense of Kiran and Diego’s algorithms. Talk to your partner about how they are alike and different, and how Kiran might have found his answer.”
3 minutes: partner discussion
Pause for a discussion.
Invite students to share their conjectures on how Kiran might have reasoned about the product.
Alternatively, consider displaying a few scenarios and polling students on which one might be closest to their conjecture, if any. For example:
- A: Kiran found mentally and wrote down the result of .
- B: Kiran used the same method as Diego but added the 9, 30, and 2,100 mentally, without writing them down.
- C: Kiran drew a diagram and did the computation on another sheet of paper and wrote the result here.
- D: Kiran multiplied the single-digit 3 with each digit in 713 and wrote each partial product in a single line.
Explain that Kiran had multiplied 3 by each digit in 713, but instead of reasoning about , , and , Kiran reasoned about , , and , while paying attention to the place value of each digit.
Demonstrate Kiran’s process:
- Because the 3 in 713 means 3 ones, he wrote the result of or 9 in the ones place.
- Because the 1 means 1 ten, he wrote the result of in the tens place.
- Because the 7 means 7 hundreds, he wrote the result of in the hundreds place.
“Traten de usar el algoritmo de Kiran para encontrar el valor de los últimos dos productos” // “Try using Kiran’s algorithm to find the value of the last two products.”
3 minutes: independent work time
2 minutes: partner discussion

Estos son dos algoritmos para encontrar el valor de .

Kiran

Diego
multiply. 7 hundred 13 times 3. 6 rows. First row: 7 hundred 13. Second row: multiplication symbol, 3. Horizontal line. Third row: 9. Fourth row: 30. Fifth row: plus 2 thousand 1 hundred. Horizontal line. Sixth row: 2 thousand 1 hundred 39.

Discute con tu compañero:
1. ¿En qué se parecen estos algoritmos? ¿En qué son diferentes?
2. ¿Cómo crees que Kiran obtuvo 2,139 como resultado?
Encuentra el valor de cada producto.

Student Response

to access Student Response.

Advancing Student Thinking

Activity Synthesis

Select students to share and explain their calculations of the last two products.
Consider demonstrating the process of Kiran’s strategy to find .
“La estrategia de Kiran se llama el ‘algoritmo estándar de multiplicación’. En la siguiente actividad, vamos a estudiar más a fondo este algoritmo” // “Kiran’s strategy is called the ‘standard algorithm for multiplication.’ We’ll take a closer look at this algorithm in the next activity.”

Activity 2

Standards Alignment

Building On

Addressing

Building Toward

Instructional Routines

None

Materials

None

Activity Narrative

The purpose of this activity is for students to compare the standard algorithm for multiplication and an algorithm that uses partial products. The focus of the Lesson Synthesis is on the convention used for composing a new unit and how it connects to their work with the standard algorithm for addition.

Engagement: Internalize Self-Regulation. Synthesis: Provide students an opportunity to self-assess and reflect on their own progress. Remind students what kinds of multiplication problems they were working on before this unit, and ask them to notice how the multiplication they are working on now is different. Invite them to list the new strategies they have learned in this section.
Supports accessibility for: Conceptual Processing, Social-Emotional Functioning

Launch

Groups of 2

Activity

“Trabajen con su compañero en el primer problema” // “Work with your partner on the first problem.”
3–4 minutes: partner work time
Pause for brief discussion. Invite students to share how the two methods are alike and how they are different.
“¿Por qué en el algoritmo de Kiran hay un 1 escrito encima del 2 que está en la columna de las decenas?” // “In Kiran's algorithm, why is a 1 written above the 2 in the tens column?” (It represents 1 ten from the number 12. It helps us remember to add it to the tens place because we are doing a lot of calculations in our heads.)
“¿Dónde hemos visto antes esta notación?” // “Where have we seen this notation before?” (When we add using the standard algorithm, we use this notation to show that we have more than 9 ones, tens or hundreds, and so on, in a given place, we add each group of 10 units to the place value to the left.)
“Kiran usó el algoritmo estándar de multiplicación. Traten de usarlo para encontrar el valor de ” // “Kiran's used the standard algorithm for multiplication. Try using it to find .”
3 minutes: independent work time
1–2 minutes: partner discussion

Analiza los algoritmos que usaron Diego y Kiran para encontrar el valor de .

Kiran

Diego
multiply. 2 hundred 23 times 4. 6 rows. First row: 2 hundred 23. Second row: multiplication symbol, 4. Horizontal line. Third row: 12. Fourth row: eighty. Fifth row: plus 8 hundred. Horizontal line. Sixth row: 8 hundred ninety 2.
1. ¿En qué se parecen estos algoritmos? ¿En qué son diferentes?
2. ¿Dónde está el 12 en el algoritmo de Kiran?
1. Intenta usar el algoritmo de Kiran para encontrar el valor de .
2. Comprueba tu trabajo usando otro método.

Student Response

to access Student Response.

Advancing Student Thinking

Activity Synthesis

“En la síntesis de la lección, vamos a comparar las formas en las que llevamos un registro de los productos parciales” // “In the Lesson Synthesis, let’s compare ways we kept track of the partial products.”

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Lesson 11

Productos parciales y el algoritmo estándar

Warm-up

Instructional Routines

Materials

Activity Narrative

Launch

Activity

Student Response

Advancing Student Thinking

Activity Synthesis

Activity 1

Standards Alignment

Building On

Addressing

4.NBT.B.5

Building Toward

Instructional Routines

Materials

Activity Narrative

Launch

Activity

Student Response

Advancing Student Thinking

Activity Synthesis

Activity 2

Standards Alignment

Building On

Addressing

4.NBT.B.5

Building Toward

Instructional Routines

Materials

Activity Narrative

Launch

Activity

Student Response

Advancing Student Thinking

Activity Synthesis

Lesson Synthesis

Standards Alignment

Building On

Addressing

4.NBT.B.5

Building Toward