Download - A Close Look at Measurement
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A Close Look at MeasurementGrades 3-5Cynthia Santosuosso
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Objectives1. Understand the progression of measurement
concepts in relation to the Common Core2. Develop content knowledge about measurement3. Collaborate with colleagues on teaching of
measurement4. Learn effective strategies to promote student
learning of measurement
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Why Measurement?•“It bridges the two main areas of school
mathematics-geometry and number.”▫NCTM, 2000
•“Measurement is justifiably seen as important, because it provides the main route to the application of mathematics to quantities in all daily life, science, and technology practice.”▫Ryan and Williams, 2007
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Reflecting on Measurement Performance
NAEP, Grade 4, 2011
The square has a perimeter of 12 units. What is the area of the square?
a. 6 square unitsb. 8 square unitsc. 9 square unitsd. 12 square units
Only 24.36% answered correctly…
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Measurement through the grades
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The Components of the Standard
Measurement and Data
Geometric Measureme
nt
MeasuringData
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Common Core Critical AreaGrade 3: Students recognize area as an attribute of two-dimensional regions. They measure the area of a shape by finding the total number of same-size units of area required to cover the shape without gaps or overlaps, a square with sides of unit length being the standard unit for measuring area. Students understand that rectangular arrays can be decomposed into identical rows or into identical columns. By decomposing rectangles into rectangular arrays of squares, students connect area to multiplication, and justify using multiplication to determine the area of a rectangle.
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Common Core Critical AreaGrade 5: Students recognize volume as an attribute of three-dimensional space. They understand that volume can be measured by finding the total number of same-size units of volume required to fill the space without gaps or overlaps. They understand that a 1-unit by 1-unit by 1-unit cube is the standard unit for measuring volume. They select appropriate units, strategies, and tools for solving problems that involve estimating and measuring volume. They decompose three-dimensional shapes and find volumes of right rectangular prisms by viewing them as decomposed into layers of arrays of cubes. They measure necessary attributes of shapes in order to determine volumes to solve real world and mathematical problems.
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The Progressions Documents• Project designed by the University of Arizona• CCSS were originally built on the narrative progression of a topic
across grade levels• University of Arizona is recreating these, because of the following
benefits:• Explain why standards are sequenced in order• Identify cognitive difficulties for students• Provide pedagogical solutions• Explain difficult areas of mathematics in depth
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K-2 Progression of Measurement
Kindergarten
Describe and compare measurable attributes
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Task: Close Reading of Progressions
1.Closely read your section of the Progressions Document
2.Summarize the key points on chart paper3.Share out
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Progressions Reflections…Complete the reflection sheet.
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Carousel Activity: Connections to the Mathematical Practices
What opportunities do students have to engage in each mathematical practice while teaching your grade
level measurement standards?
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Fundamental Concepts of Measurement
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What is measurement?Measurement is the process of quantifying the properties of an object by expressing them in terms of a standard unit.
Measurements are made to answer such questions as, How heavy is this box? How tall is my daughter? How much chlorine is in this water?
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The Measurement ProcessSelect an attribute of the item you wish to measure.
Choose an appropriate unit of measurement for measuring that attribute.
Determine the magnitude, or number of units needed.
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Turn and Talk: How can you measure this bucket?
• Height• Depth• Diameter• Volume• Surface area• Weight
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Fundamental Components of Measurement
Partitioning
Conservation
Transitivity
Unit iteration
Accumulation of distance
Relation between number and measurement
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Partitioning•Dividing an object into same-size units.
That this is not obvious to children becomes apparent when they are asked what the hash marks on a ruler mean. A child who does not understand partitioning of length sees the 3 on a standard ruler as a hash mark rather than as the end of a space that is divided into 3 equal-size units.
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ConservationThe principle that an object maintains the same size and shape even if it is repositioned or divided in certain ways. The understanding that as an object moves, its length does not change.
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TransitivityWhen you can't compare two objects directly, you must compare them by means of a third object.
The understanding that if the length of one object is equal to the length of a second object, which is equal to the length of a third object that cannot be directly compared with the first, the first and third objects are also the same length.
Example:For example, to compare the length of a bookshelf in one room with the length of a desk in another room, you might cut a string that is the same length as the bookshelf. You can then compare the piece of string with the desk. If the string is the same length as the desk, then you know that the desk is the same length as the bookshelf.
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Unit IterationUnit iteration is the repetition of a single unit along the length of an object. Children with little understanding of this concept often leave gaps between subsequent units or even overlap the units.
Example:If you are measuring the length of a desk with straws, it is easy enough to lay out straws across the desk and then count them. But if only one straw is available, then you must iterate (repeat) the unit (straw). You first have to visualize the total length in terms of the single unit and then reposition the unit repeatedly.
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Accumulation of distance•When you iterate a unit along an object’s
length and count the iterations, the number words convey the space covered by all units counted up to that point.
five inches
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Relation between number and measurement•Many children fall back on their earlier
counting experiences to interpret measuring tasks (for example, beginning with 1 rather than 0). Students who simply read a ruler procedurally have not related the meaning of the number to its measurement.
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Units Versus Numbers•“When measuring with a ruler of this
type, children must deal directly with the fact that the length of an object is the number of units (spaces, not marks, on the ruler) between the beginning point and the end point”
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Why are these important?
These are the building blocks of measurement!
Without a solid foundation, students will not master
area, angles, conversions, or volume.
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General Measurement Misconceptions•Measurement and measurement units are
abstract concepts for children.
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Misconceptions About Length• Students have difficulty in determining the
length of a line when the ruler is not aligned with the object starting at zero. This is because they count the
marks/hashes on the ruler rather than the units. • Measurement is difficult for students because
they confuse counting and measuring. • Children rarely understand that numbers are
represented on the number line by lengths; instead, numbers are thought to be represented by the points they label.
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Misconceptions About Area•Children see area as calculation—a number
separate from the real-world situation—rather than a measurement.
•Children have difficulty in tiling a region with a unit of different shape than the region and they will not violate any boundary of the region while tiling.
•Formula replaces the measurement with an instrument and impedes the understanding of measurement units.
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Misconceptions About Volume and Angle•When students have to find the volume of
a space filled with unit cubes, they usually count only the cubes that are visible from a given angle.
•Students think that the length of the rays constructing the angle has an effect on the measure of the angle.
•They rarely understand that angle is a measure of rotation.
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Analysis of Student Misconceptions•Review the student misconceptions about
measurement.• Identify the specific misconception.• Is there a specific area of measurement
that the child is struggling with?
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Classroom Application
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Common Instructional Goals
Familiarity with the units
Ability to select an appropriate unit
Knowledge of relationships between units
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Estimation v. Precision
Both are extremely
important in measurement!
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Estimation•Helps students focus on the attribute being
measured and the measuring process.
•When standard units are being measured, estimation helps develop familiarity with the unit. Ex: If you are measuring the height of a door in meters, you must first think about the size of a meter.
•Forces students to check for reasonability!
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Strategies for teaching estimation in measurement•Develop and use benchmark
measurements▫Ex: A paperclip is one inch; a sack of flour
is 5 lbs•Use “chunking”
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Strategies for teaching estimation in measurement•Iterate a unit mentally or physically. Use
your hands, feet, fingers, folds in paper to keep track of your measurement.
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Before you start measuring….
Always start with an estimate!
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Precision•Measurement, by its very nature, is
approximate. •The precision of the measuring device
tells us how finely a particular measurement was made.
•Measurements made using small units, such as square millimeters, are more precise than measurements made using larger units, such as square centimeters.
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Strategies for Teaching Precision•Have students specify unit of measure•Encourage students to make precise
measurements•The accuracy of a measure is determined
by how correctly a measurement has been made. Accuracy can be affected by the person making the measurement and/or by the measurement tool.
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Strategies for Teaching Length•Have students look at spaces, rather than
hash marks. Students should count the units of measure.
•Allow students to measure real-world objects, rather than only pictures on paper.
•Create strong benchmark measurements for students to use as references for estimate and to check reasonability. Example: A small paperclip is about one inch long; I am about five feet tall.
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Strategies for Teaching Perimeter•“Unroll” the sides of a shape by drawing a
line segment by tracing the length of each side of the figure.
• If necessary, add the lengths on a ruler.•Provide hands-on experiences beyond
calculating perimeter on paper.
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Strategies for Teaching Area•Arrays!!!•Unit covering/Tiling•Determining the area of a shape that is superimposed on a grid
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Strategies for Teaching Area/Perimeter•Pentominoes
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Strategies for Teaching Angles•Asking students to estimate the angle
prior to measuring may help prevent them from misreading the protractor. Students can identify whether the angle is acute, obtuse or more or less than a right angle prior to measuring.
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Strategies for Teaching Angles•Provide students with opportunities to
compare angles without measuring them.
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Strategies for Teaching Volume• Use models (cubes, boxes, stacks of books) to explain the
formula
• Make box models
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Transfer to EnVision• Review the following items:• Progressions reflection sheet• Common Misconceptions• Teaching strategies
• Use sticky notes to mark up your upcoming EnVision measurement topics with important points that you want to remember when teaching these topics to students.
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Measurement TasksIt’s your turn! Try these measurement tasks and see what concepts and strategies you apply while problem solving.
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Measurement TaskProblem of the Month: Surrounded and CoveredLevel DLevel E
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Turn and Talk•What key ideas in measurement do these
tasks promote?
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Sources• Oberdorf, Christine; Schultz-Ferrell, Karren. Math
Misconceptions, PreK-Grade 5 Heinemann. Kindle Edition. 2010.
• Bamberger, Honi and Christine Oberdorf. Activities to Undo Math Misconceptions. Portsmouth: Heinemann, 2010.
• El Paso Collaborative for Academic Excellence. “Measurement: Student Misconceptions
and Strategies for Teaching.” http://www.epcae.org/uploads/documents/Measurement_pck_SEP21.pdf• Annenberg Learner. “Fundamentals of Measurement.”
http://www.learner.org/courses/learningmath/measurement/session2/index.html