Teacher resources and professional development across the curriculum

Teacher professional development and classroom resources across the curriculum

Monthly Update sign up
Mailing List signup
Search
Follow The Annenberg Learner on LinkedIn Follow The Annenberg Learner on Facebook Follow Annenberg Learner on Twitter
MENU
Learning Math Home
Number Session 10, Grades 6-8: Solutions
 
Session 10 Session 10 6-8 Part A Part B Part C Homework
 
Glossary
number Site Map
Session 10 Materials:
Notes
Solutions
 

A B C 

Video

Solutions for Session 10, Part A

See solutions for Problems: A1 | A2 | A3 | A4 | A5 | A6


Problem A1

a. 

Ms. Miles is working with her students on understanding place value and interpreting numbers in different bases. She uses manipulatives and later symbolic expressions and algorithms to help explain the idea that each place in a number stands for a particular power of the base number (i.e., in base five: 50, 51, 52, etc.). In this video segment, students convert base ten numbers to base five numbers using a different process -- by decomposing the number into powers of 5. They also begin to develop an algorithm.

b. 

Students need to demonstrate that they can compute fluently and have an understanding of the order of operations and exponents. They need to be able to understand algorithms and translate visual information (e.g., manipulatives) to more abstract forms, such as symbolic representations.

c. 

The teacher is asking probing questions that help her assess students' understanding and the level of their thinking as well as challenge the students into new understandings. The teacher is also utilizing class discussion, using students' answers to build or scaffold the concepts she is trying to convey and to bring additional clarity.

<< back to Problem A1


 

Problem A2

Students are learning a new base. The new content is the interpretation of place value with a base other than ten.

<< back to Problem A2


 

Problem A3

In the lesson, the teacher is utilizing the students' prior knowledge and familiarity with base ten in order to help them interpret numbers in a new base. She uses both manipulatives and mental math to help them substitute powers of 10 for powers of 5 and make the necessary connections. Sometimes, as shown in this video segment, it is hard for students to separate their thinking about the two bases; an example is Britney's answer about base five, which indicated that she was still thinking in terms of base ten. As they work on the problems themselves, students are clearly developing fluency in converting numbers from base ten to base five.

<< back to Problem A3


 

Problem A4

The teacher chose base five for her students because, since they are familiar with powers of 5, it would be relatively easy for them to work with them. Thus, they can use mental math to convert numbers back and forth more easily, allowing them to focus on making observations about place value rather than getting bogged down in cumbersome calculations. However, working with other bases would be beneficial as well.

Additionally, using a different base -- for example, base five -- is helpful because it makes the underlying concepts of place value more apparent. Students are then able to transfer this knowledge to numbers in other bases -- in particular, base ten. In base ten, the same concepts can be harder to notice because of students' familiarity with this base, which may result in their overlooking the particular meanings of a place-value system.

<< back to Problem A4


 

Problem A5

Ms. Miles first uses manipulatives to help students understand the process. She is also preparing them to do the written work after they've learned with manipulatives.

<< back to Problem A5


 

Problem A6

Ms. Miles adapted the lesson to suit her students' grade level and mathematical abilities. Since this was the first time her class was dealing with different bases, she added manipulatives to help her students gain visual understanding, which, initially, was an important element. She then guided them toward working on a more abstract level, using the symbolic expressions as well as algorithms (later in the lesson).

Notice that she did not use the analogy of packaging that was used in the course. This technique may also be helpful in enhancing students' understanding of this type of content.

<< back to Problem A6


 

Learning Math Home | Number Home | Glossary | Map | ©

Session 10, Grades 6-8 | Notes | Solutions | Video

© Annenberg Foundation 2014. All rights reserved. Legal Policy